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VOLUME 68 DECEMBER 1975 ISSN 0303 2515

{ per sie
LiBRARILS

OF THE SOUTH AFRICAN

; EOF, of

KOV-W>) DUS RO DTA

INSTRUCTIONS TO AUTHORS

1. MATERIAL should be original and not published elsewhere, in whole or in part. When
accepted, copyright becomes the property of the Trustees of the South African Museum.

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BULLOUGH, W. S. 1960. Practical invertebrate anatomy. 2nd ed. London: Macmillan.

FISCHER, P.-H. 1948. Données sur la résistance et de le vitalité des mollusques.—J. Conch., Paris 88: 100-140.

FISCHER, P.-H., DUVAL, M. & Rarry, A. 1933. Etudes sur les échanges respiratoires des littorines.—Archs
Zool. exp. gén. 74: 627-634.

Koun, A. J. 1960a. Ecological notes on Conus (Mollusca: Gastropoda) in the Trincomalee region of Ceylon.—
Ann. Mag. nat. Hist. (13) 2: 309-320.

Koun, A. J. 1960b. Spawning behaviour, egg masses and larval development in Conus from the Indian
Ocean.— Bull. Bingham oceanogr. Coll. 17 (4): 1-51.

THIELE, J. 1910. Mollusca: B. Polyplacophora, Gastropoda marina, Bivalvia. In: SCHULTZE, L. Zoologische
und anthropologische Ergebnisse einer Forschungsreise im westlichen und zentralen Siid-Afrika 4: 269-270.
Jena: Fischer.— Denkschr. med.-naturw. Ges. Jena 16: 269-270.

(continued inside back cover)

ANNALS OF THE
SOUTH AFRICAN MUSEUM

VOLUME 68

4

up Tes 4? ; :

Hydrocorella africana. Colony on shell, with calcareous processes
in foreground.

Hydractinia altispina. Colony on shell, with gastrozooids and
gonozooids.

Photographs: D. Gerneke.

Tubularia warreni. Hydranth with
gonophores.

Bicorona elegans.

ANNALS OF THE SOUTH AFRICAN MUSEUM
ANNALE VAN DIE SUID-AFRIKAANSE MUSEUM

Volume 68 Band
December 1975 Desember

MONOGRAPH ON THE HYDROIDA
OF SOUTHERN AFRICA

By

N. A. H. MILLARD

Cape Town Kaapstad

bale be ww I i

NWI

INSEPIULIVUIN

SMITHSONIAN

IT 1IRRARIES

NS SJIMNWNA

=

al rAICTITIITIOAI

A

AITLIC OAT

The ANNALS OF THE SOUTH AFRICAN MUSEUM

are issued in parts at irregular intervals as material
becomes available

Obtainable from the South African Museum, P.O. Box 61, Cape Town

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Courtweg, Wynberg, Kaap

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA

By
N. A. H. MILLARD
South African Museum, Cape Town

(With 143 figures)

[MS. accepted 7 October 1974]
CONTENTS

Introduction
Structure and terminology
Order Hydroida
Suborder Athecata
Family Corymorphidae
Family Tubulariidae
Family Halocordylidae
Family Myriothelidae
Family Corynidae
Family Cladonemidae
Family Solanderiidae
Family Asyncorynidae
Family Cladocorynidae
Family Zancleidae
Family Clavidae p
Family Eudendriidae .
Family Bougainvilliidae
Family Hydractintidae
Family Cytaeidae
Family Pandeidae
Suborder Thecata ;
Family Campanulinidae
Family Haleciidae
Family Lafoeidae
Family Campanulariidae
Family Syntheciidae
Family Sertulariidae
Family Plumulariidae .
Subfamily Halopterinae
Subfamily Kirchenpaueriinae
Subfamily Plumulariinae
Subfamily Aglaopheniinae
Suborder Limnomedusae
Family Moerisiidae :
Family Proboscidactylidae .

List of species and authorities for previous South African records ‘

Records of hydroid medusae from the South African region .
Acknowledgements

Addendum

References

Index to scientific terms

Index to species

Ann. S. Afr. Mus. 68, 1975: 1-513, 143 figs.

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INTRODUCTION
CONTENT AND CLASSIFICATION

This monograph deals with the hydroid fauna of the African coast south
of 20° south latitude, and as such covers all of the Republic of South Africa,
most of South West Africa and the southern part of Mocambique as far north
as Beira (Fig. 1). Seawards it covers the continental shelf and the Agulhas Bank,
where records are abundant to a depth of about 100 m but become increasingly
scarce below this.

The classification of the Hydrozoa accepted for the purpose of the mono-
graph is as follows:

Class HYDROZOA

Order 1. Hydrida
Order 2. Actinulida S
Order 3. Trachylida
Suborder 1. Trachymedusae
Suborder 2. Narcomedusae
Order 4. Hydroida (Leptolina)
Suborder 1. Athecata (Gymnoblastea, Anthomedusae)
Suborder 2. Thecata (Calyptoblastea, Leptomedusae)
Suborder 3. Chondrophora
Suborder 4. Limnomedusae
Order 5. Hydrocorallida
Suborder 1. Milleporina
Suborder 2. Stylasterina
Order 6. Siphonophora

The monograph deals with the marine and brack water Hydroida of the
suborders Athecata, Thecata and Limnomedusae. Certain authorities (parti-
cularly Picard 1957) consider that the Chondrophora (originally included in the
Siphonophora) and the Milleporina are closely related to the athecate hydroids.
Evidence in favour of such an affinity appears to be increasing, and Bouillon
(1974) evaluates these two groups as families (Velellidae and Milleporidae
respectively) of capitate athecate Hydroida. However, in the meantime I have
retained the old classification and these two groups are not covered in this
monograph.

It is usual among hydroid systematists to divide the Athecata into the
Capitata and the Filifera, a division which depends on the presence of capitate
tentacles in the former and their absence in the latter. It is felt, however, that
this fission is not a natural one and it has therefore not been used. In some genera
capitate tentacles are present in the immature stages and not in the adult (e.g.
Tubularia), while in others they are present in the medusa and not in the polyp
(e.g. Bougainvillia).

In all 286 species and subspecies are described, nine of them new to science.*
Keys to South African families, genera and species are provided. These keys do

* See also Addendum, p. 483.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA

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not necessarily represent systematic relationships but are intended as a tool for
identification only. They should be used with caution and the genera and species
checked against the diagnoses and diagrams. Material which does not fit the
keys may be new species or new records for the country. Some well-known genera
not yet recorded from South Africa have been included in the keys but are
enclosed in brackets.

The monograph is essentially on the polyp rather than the medusa genera-
tion, and the polyp generation has been emphasized throughout, both in the
keys and in the descriptions. The medusa generation is described where known,
but medusae with unknown polyps are not described. A check-list of South
African medusa records is given on p. 481.

Families are arranged in the generally accepted order, which implies a very
rough evolutionary sequence. Genera and species are arranged in alphabetical
order within the families. Each family has a short introduction outlining its
more important features.

The systematic descriptions are preceded by a section on structure and
terminology where definitions of terms will be found. Certain terms, which are
relevant to particular families only, will be defined in the introduction to those
families. The index to scientific terms on p. 497 will give quick access to
definitions.

MEASUREMENTS

Measurements are not given in detail, for they are intended only as a rough
guide to the size. Measurements of a colony are given to the nearest mm and
those of a hydrotheca to the nearest 0,1 mm except for those which are less
than 0,2 mm which are given to the nearest 0,01 mm. Measurements apply
strictly to South African material, as do numbers of tentacles, etc. The depth
of a hydrotheca is taken in side-view in the centre, unless otherwise stated, and
exclusive of regenerated margins when these occur. When the hydrothecal wall
is curved the straight measurement is taken from the base to the edge and across
the curvature.

RECORDS OF DISTRIBUTION AND DEPTH

At the end of each species the distribution in southern Africa, both from
the author’s findings and other papers, is briefly summarized. This is done by
the use of two figures indicating the latitude/longitude squares. Thus, 35/20
would indicate a latitude between 35 and 36° south and a longitude between
20 and 21° east.

The depth range is added in parenthesis, thus: 35/20 (s), where ‘s’ refers to
‘shallow’. For the depth the following key is used:

1: littoral vd: very deep (500-999 m)
s: shallow (1-99 m) a: abyssal (1 000 m and over)
d: deep (100-499 m) h: ships’ hulls and floating objects

Estuarine records have not been separated; generally they are included in ‘s’.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 5

No attempt has been made to indicate relative abundance. In the first
place most of the records are from dredgings performed in a random fashion.
In the second place many species can be identified only from fertile material,
and in such cases sterile records have been omitted rather than risk incorrect
identifications. Genera such as Eudendrium, Tubularia and Hydractinia, for
instance, are much more abundant than is indicated by the records, which are
usually of fertile material only.

Geographical distribution has not been analysed in this monograph, either
within southern Africa or as related to world distribution. The matter will be
discussed fully in a subsequent paper.

NEMATOCYSTS

Much attention has been paid in recent years to nematocyst type and its use
in classification. It appears that within most families nematocysts are not of great
diagnostic value since members of a family tend to have the same types. They
may be of great value, though, in genera with few other diagnostic characters
and are useful for establishing relationships in groups of doubtful affinity. In
this monograph they have been described, where possible, for the Athecata
only, where the diagnostic characters are fewer than in the Thecata.

For the examination of nematocysts only living material is satisfactory.
Whole tentacles, smears or portions of the body should be mounted on a
microscopic slide in sea-water. Replacement of the sea-water by distilled water
will cause discharge of many types, and further discharge may be facilitated
by alternate drying and re-hydration. Suitable stains include neutral red,
methylene blue and magenta. A powerful microscope and oil immersion lens is
necessary for observation of detail, though the category can often be determined
without strong magnification.

SYNONYMY AND REFERENCES

The synonymy given with each species is not intended to be complete, but in
each case there has been quoted the original description and, where possible, at
least one good description or reference to a synonymy.

The literature on South African hydroids is very scattered, most of the
earlier work being limited to descriptions of collections made by expeditions
passing through the area. Stechow, in 1925a, published a check-list of 153 species
up to that date. The most important records previous to 1925 are those of
Warren, who deserves special praise for the accuracy of his descriptions and
diagrams, Busk, Kirchenpauer, Allman, Ritchie, Billard, Jaderholm, Mark-
tanner-Turneretscher, Vanh6offen and Stechow himself. Kirchenpauer’s type
material was unfortunately nearly all destroyed during the last world war.
Some of his species were redescribed by Stechow (19195), but many were
inadequately described in the first place and may now be dropped. Stechow’s
slide material has been available to the author on loan. Busk’s material and
much of Allman’s material is present in the British Museum (Natural History).

6 ANNALS OF THE SOUTH AFRICAN MUSEUM

Warren’s material is in part in the British Museum and in part in the Natal
Museum. Ritchie’s collection was redescribed by Rees & Thursfield (1965).

Since 1925 the quota of species has been added to by Vervoort, Leloup,
Ewer, Kramp, Manton and the present author, and Stechow’s check-list has
been almost doubled.

In the list of references on p. 485 all those containing South African records
have been marked with an asterisk.

On p. 471 a complete list of species is given together with the authorities
for previous records. Thus, any record can be located through the index to
species on p. 499, even though it may not be quoted with the description.

SOURCES OF MATERIAL

Collections from many sources have contributed material towards this
monograph. They may be listed as follows:

The collection in the Zoology Department, University of Cape Town, consisting
of some material left by the late Professor T. A. Stephenson from his intertidal
survey of the coast, and a large body of material added more recently by Professor
J. H. Day and his colleagues during work on estuaries, the bottom fauna of the
continental shelf and the littoral area. Type specimens from this collection are
housed in the South African Museum.

The collection in the South African Museum, much of it derived from dredgings
of the s.s. Pieter Faure at the turn of the century.

The collection from Dr Th. Mortensen’s Java—South Africa Expedition,
1929-1930, and material from the Universitetets Zoologiske Museum, K¢ébenhavn.
A collection from Inhaca, Delagoa Bay, submitted by the University of the Wit-
watersrand, Johannesburg.

Material submitted by the Oceanography Department, University of Cape Town.
Material submitted by the Zoology Department, Rhodes University, Grahams-
town.

Material submitted by the Division of Sea Fisheries, Cape Town.

Material collected by the R/V Anton Bruun during the International Indian Ocean
Expedition, 1964.

Material collected by Professor J. Bouillon, Bruxelles, on the coast of Mocam-
bique in 1969.

Material collected by the author from various parts of the coast.

STRUCTURE AND TERMINOLOGY

Accounts of the detailed structure and histology of the Hydrozoa are readily
obtainable in textbooks. The present account of the anatomy does not claim to
be complete and is intended onl, to provide a glossary to the terms used in the
keys and diagnoses.

The polyp and medusa phases characteristic of-the life-history of the
Hydroida are primarily radially symmetrical, though occasionally a secondary
bilateral symmetry is superimposed. The polyp, or asexual generation, usually
multiplies by vegetative propagation to produce colonies and is typically
permanently attached to the substratum. The medusa, or sexual generation, is
free-swimming and responsible for distribution of the sexual products.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA |

The POLyP has a cylindrical body with a body-wall of ectoderm, endoderm
and mesogloea, and it contains a cavity, or COELENTERON, with a single open-
ing, the MOUTH. It consists of a base, the HYDRORHIZA, an upright stem, the
HYDROCAULUS, and a terminal part bearing the mouth and tentacles, the
HYDRANTH.

The HYDRORHIZA normally takes the form of branching tubes, or STOLONS,
which ramify over the substratum and affix the body of the animal. In certain
cases the stolons may fuse with one another to form a continuous mat, said to
be INCRUSTING (Fig. 35C). In certain mud- and sand-dwelling forms the hydro-
rhiza is in the form of slender root-like ANCHORING FILAMENTS (Fig. 13). Forms
also occur in which the hydrorhiza is provided with ATTACHMENT DISCS or
PEDAL DISCS with adhesive properties (Fig. 142).

The HYDROCAULUS rises from the hydrorhiza and bears the hydranth, from
which it is often not clearly demarcated. Its body-wall is the COENOSARC. Its
cavity provides communication between the various parts of a colony; it is
usually simple, but in some of the larger polyps may be provided with special

mouth

oral tentacle

hypostome
a ( hypostome
/ « }-gonophore LL

(medusa bud)

\
. ‘
Oty te ee

Hydranth

aboral

hydrotheca
tentacle

gastral cavity

perisarc
coenosarc

Hydrocaulus coelenteron

gonotheca
gonophore spadix
gonad

—stolon

Hydrorhiza

ATHECATE ip CARE

Fig. 2. Diagrammatic representation of the parts of the polyp generation.

8 ANNALS OF THE SOUTH AFRICAN MUSEUM

longitudinal ENDODERMAL CANALS, while the main lumen is filled with vacuolated
endoderm cells.

The HYDRANTH consists of a main or digestive region containing a swollen
GASTRAL CAVITY and an elongated HYPOSTOME, or manubrium, bearing the
mouth at its summit. It also bears the TENTACLES.

The endoderm of the hydranth is usually relatively undifferentiated, though
mucous cells tend to be more numerous in the hypostome and enzymatous cells
in the gastral cavity. In the Thecata the single whorl of tentacles marks a
boundary between these two regions. In some thecate families the endoderm
of the gastral cavity is differentiated into two parts which may be demarcated
externally by a groove, the enzymatous cells being concentrated in the basal
part, e.g. Haleciidae, Plumulariidae. In the Sertulariidae some genera possess a
BLIND CAECUM, or pouch of endoderm, which grows out from the basal region
and is devoid of enzymatous cells (Fig. 81A).

The cavity of the hydranth is normally simple, but in large hydranths, e.g.
Myriothelidae, the surface area may be increased by ingrowths of endoderm to
form VILLI (Fig. 18E). In the Tubulariidae a cushion of special endoderm cells
projects into the basal part of the gastral cavity functioning as a DIAPHRAGM to
prevent the passage of large food particles.

The HYPOSTOME is conical in most families, but in the Eudendriidae and
Campanulariidae tends to gape open and is trumpet-shaped.

The TENTACLES vary in structure and arrangement, and may be scattered
over the whole body of the hydranth, or concentrated into one or more whorls.
When there are two whorls these are said to be ORAL and ABORAL. Rarely
tentacles are absent, and rarely they are branched.

There are three types of tentacles:

1. MONILIFORM: very extensile tentacles, with a series of batteries of sting-cells
arranged like beads on a string.

ectoderm

endoderm

yO

° s)° “\°7>7.
~ =
hele oe

Ee WREAK Bk OF

w* # mesogloea

{

,
FILIFORM SOLID
MONILIFORM BRANCHED HOLLOW

Fig. 3. Tentacle types and structure.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 9

2. CAPITATE: short tentacles terminating in a single knob-like battery of sting cells.
3. FILIFORM: long, slender tentacles in which the sting-cells are scattered along
the length and not concentrated in batteries.

In structure the tentacles may be:

1. HOLLOW, in which case they may contain a cavity lined by endoderm and com-
municating with that of the gastral cavity, but more often the inner sides of the
endodermal tube have come into juxtaposition and the cavity is lost. How-
ever, in the latter case the endoderm is always more than one layer thick.

2. SOLID, in which case there is a central core consisting of one row of large, stiff
endoderm cells.

In some of the more primitive families the bases of the tentacles may be
connected by an INTERTENTACULAR WEB (Fig. 43C).

The Hydroida are noted for their POLYMORPHISM, or ability to exist in
different forms. Not only does this term apply to the differentiation between
polyp and medusa, but there may be dimorphy or polymorphy of the polyp
stage. Thus there may be recognized:

1. GASTROZOOIDS: normal feeding individuals with mouth and well-developed
tentacles (but without tentacles in the parasitic Hydrichthys); without
reproductive organs.

2. GONOZOOIDS: reproductive individuals bearing medusa-buds or degenerate
medusae. They are usually modified gastrozooids and show various stages
in the reduction and loss of the tentacles. The conversion may occur during
the ripening of the reproductive bodies, e.g. Eudendrium. Sometimes there
is no sign of tentacles at any stage and the hydranth body forms a hollow
axis or stalk known as the BLASTOSTYLE.

3. DACTYLOZOOIDS: defensive individuals richly armed with sting-cells and with-
out the power to feed or reproduce. There are several types:

lls

GASTROZOOID GONOZOOID DACTYLOZOOIDS

tentaculozooid

————

Fig. 4. Types of individuals in polymorphic colonies.

10 ANNALS OF THE SOUTH AFRICAN MUSEUM

(i) SPIRAL ZOoIDS: modified hydranths without mouth or tentacles but with a
gastral cavity. They are characteristic of some of the Hydractiniidae and
typically perform writhing movements and tend to twist into a spiral.

(ii) TENTACULOZOOIDS: similar to tentacles in structure, with a solid core of endo-
derm cells and no mouth or gastral cavity. More delicate and slender than
spiral zooids.

(iii) NEMATOPHORES: highly extensile structures representing reduced hydranths
and without mouth or tentacles. Characteristic of the Plumulariidae, where
they may also be called sARCOSTYLES, but also occurring in a number of other
families.

The polyps of the Hydroida are occasionally solitary, as in the families
Corymorphidae and Myriothelidae, where the individuals are large and provided
with various internal elaborations of structure, but they are more often colonial
and consist of numerous individuals derived by asexual multiplication but
remaining in cellular continuity with one another.

Colonies may be STOLONIAL, where growth is horizontal and the hydranths
arise direct from a common hydrorhiza, or erect, where growth is vertical, pro-
ducing an upright hydrocaulus bearing the hydranths. Such a hydrocaulus may
be unbranched, and bear a terminal hydranth with or without a number of
lateral ones, or it may be branched.

The form of erect colonies depends primarily on the type of growth. Kuhn
(1914) defined three types of growth; and these types have been accepted by
modern systematists and are depicted in most textbooks.

1. MONOPODIAL GROWTH WITH TERMINAL HYDRANTH (raceme). The first
hydranth on the hydrocaulus is terminal. Below this is a growth-zone, and
below this a budding zone. Buds are formed in the budding zone and the

hydranth 1

6 MONOPODIAL,
TERMINAL GROWING
POINT

growth zone —33
budding zone—#:

9 «

STOLONIAL

ab

SYMPODIAL

MONOPODIAL,
TERMINAL HYDRANTH

Fig. 5. Forms of growth and colony formation.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 11

hydrocaulus elongates above them, so that the first bud is at the base of the
stem and the youngest near the top. Each bud then grows in a similar man-
ner and several degrees of branching may occur, each branch topped by its
oldest hydranth, e.g. most Athecata: Eudendrium, Bougainvillia, Halocordyle.

2. MONOPODIAL GROWTH WITH TERMINAL GROWING POINT. There is no terminal
hydranth, but the stem is topped by a growth-zone. Below the growth-zone
is the budding zone, so that as growth proceeds the oldest hydranth is at
the base and the youngest just below the tip, e.g. Plumulariidae, most
Sertulariidae.

3. SYMPODIAL GROWTH (cyme). The first hydranth is terminal, but it has no
growth-zone and the stem does not elongate after completion. A budding
zone below the hydranth produces a branch which grows beyond the first
hydranth and is topped by the second hydranth. Continuation of this pro-
cess produces a ‘false axis’ (the SYMPpoDIUM), which is in reality formed by
successive branches (the PopIA), e.g. Haleciidae, Campanulinidae, Campanu-
lariidae. Such a stem is usually zigzag or GENICULATE.

Few of the Hydroida are completely naked; most are provided with an
external ectodermal skeleton of a horny chitinoid material. In the Athecata the
skeleton is confined to the hydrorhiza, or to the hydrorhiza and hydrocaulus,
where it encloses the stolons and coenosarc as the PERISARC. The hydranth is
usually naked, or ATHECATE, but sometimes a gelatinous or membranous exten-
sion of perisarc may enclose the base of the hydranth as the PPEUDOHYDROTHECA,
e.g. Bougainvillia, Bimeria (Fig. 33F). In the Thecata the hydranth is contained
in a cup-like skeletal structure of definite shape, the HYDROTHECA, into which it
can be partly or completely withdrawn, i.e. it is THECATE, and the reproductive
buds (GONOPHORES) are contained in a GONOTHECA.

The PERISARC of the stem is sculptured in a fashion characteristic of the
species. It is usually divided into segments, or INTERNODES, by partitions, or
NODES: the latter are penetrated centrally by the living coenosarc. Less-marked
thickenings of perisarc may form transverse ANNULATIONS, probably resulting
from growth, or internal ridges with a strengthening function, the-INTERNODAL
SEPTA. In the Thecata each internode may give origin to one or two hydro-
thecae or branches with great regularity, each from a projecting shoulder, or
APOPHYSIS.

The stem, when it consists of a single perisarc-covered tube, is said to be
UNFASCICLED. A FASCICLED stem consists of many parallel tubes intercommuni-
cating by pores at intervals (Fig. 105). The central tube is the first-formed and
the peripheral tubes grow up around it, arising either from the hydrorhiza or
from the stem itself. Branches may arise either from the axial tube or from the
peripheral tubes.

Branching of the stem may be quite irregular resulting in shrubby colonies,
e.g. Eudendrium, or it may be very regular with the type diagnostic of the genus
or species. The following main types occur, although in certain cases two or
more may be combined in the same colony:

internode — marginal tooth

ANNALS OF THE SOUTH AFRICAN MUSEUM

marginal tooth

Se ee
Sal

internal tooth

hydrotheca

diaphragm

lateral nematotheca

abcauline side adcauline side

median inferior

intrathecal s um
nematotheca a ent

—internode

hydropore internodal septum

— annulations —node

Fig. 6. Parts of the skeleton. On the left a pedicellate and radially symmetrical hydrotheca.
On the right a sessile and bilaterally symmetrical hydrotheca, with accompanying nematothecae.

are

PINNATE. The stem is plume-like with two rows of branches on opposite sides
and in the same plane. The branches may be ALTERNATE if they arise alternately
on the right and left, or opposite if they arise in pairs from the same level.
DICHOTOMOUS. The stem forks to form two limbs of equal thickness. This
process may be repeated many times and the length of the two limbs is not
necessarily the same. The colony has no obvious ‘main stem’.

WHORLED. Branches arise from the stem in whorls. In Nemertesia members of
one whorl alternate with those of the next, giving double the number of longi-
tudinal rows.

SPIRAL. Branches arise as in a pinnate stem, but the main axis is spirally twisted.
SYMPODIAL. In addition to the single erect and hydrotheca-bearing stem
resulting from sympodial growth (which is really a ‘false axis’ or SYMPODIUM,
p. 11), subsidial branches may be produced in the same way, i.e. below the
terminal hydranth. If the branches arise alternately on the right and left, a
SCORPIOID SYMPODIUM* results, if the branches always arise from the same
side, a HELICOID SYMPODIUM™%, the latter tending to curl or twist into a spiral.

Two branches arising together on right and left produce a DICHOTOMOUS
SYMPODIUM.

* These terms are not used consistently in hydroid literature. The definitions adopted here are
from Webster’s International Dictionary.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 13

ne i (h)
A

STOLONIAL

geniculate straight “4 (€h)

B.UNBRANCHED
alternate opposite

pinnate whorled Spiral

C.1 ORDER OF BRANCHING

D. DICHOTOMOUS

es 1
3(eh)
a 2 ORDERS OF BRANCHING = 3 ORDERS OF BRANCHING

YF vodium Yvodium
JEvosium

scorpioid helicoid dichotomous
G. SYMPODIAL BRANCHING
Fig. 7. Types of stem and branching. The hydrocladium (A) corresponds to the stem in B,

to a branch of the first order in C, to a branch of the second order in E, and to a branch of the
third order in F.

14 ANNALS OF THE SOUTH AFRICAN MUSEUM

The term HYDROCLADIUM is in use in hydroid literature, and particularly
in the Plumulariidae, for hydrotheca-bearing branches. Unfortunately it is not
always used in the same sense. Von Schenk (1965) abandoned the term and
invented a completely new terminology for the different orders of branches in
the Plumulariidae. His system is, however, cumbersome and has not been
generally accepted. Complex branching can normally be described by use of the
simple terms primary, secondary, tertiary, etc., or branches of the first, second,
third order, etc., with the retention of the well-established term HYDROCLADIA
for the final branchlets bearing hydranths or hydrothecae. The position may be
complicated in species where the colony can exist in two forms. Thus, Anten-
nella secundaria may produce both simple unbranched stems and pinnate stems.
In this case the simple stem is synonymous with a hydrocladium and with a
branch of the pinnate stem. The same position may arise in some of the Ser-
tulariidae. In colonies with irregular branching the term hydrocladium is best
avoided.

The HYDROTHECA (Fig. 6) may be without a stalk and SESSILE, or with a
stalk, or PEDICEL, and PEDICELLATE. It may be tubular, bell-shaped (CAMPAN-
ULATE), or saucer-shaped. In the Sertulariidae and Plumulariidae it is bilaterally
symmetrical, usually with one wall fused to the stem, or ADNATE. Since the
hydrotheca usually arises at an angle to the stem it is possible to distinguish
that side closer to the stem as ADCAULINE and the opposite side as ABCAULINE.
In the genus Silicularia and some species of Campanularia the hydrotheca tends
to be grossly thickened on two opposite sides, thus imparting a bilateral sym-
metry on an otherwise radially symmetrical family (the Campanulariidae)
(Fig. 66). The hydrotheca is often ornamented by transverse annulations or
longitudinal striations.

The margin of the hydrotheca may be smooth or dentate. The MARGINAL
TEETH vary in shape and number and provide a useful diagnostic character.

The hydrotheca may also have internal perisarcal thickenings. A DIA-
PHRAGM commonly occurs in the base where the hydranth narrows to join the
coenosarc. A true diaphragm takes the form of a definite perisarcal shelf on
which the base of the hydranth rests, e.g. Clytia, Obelia; sometimes an ANNULAR
THICKENING Of a less definite nature occupies the same position (Fig. 66). In the
sessile and bilaterally symmetrical hydrothecae of the Sertulariidae and Plumu-
lariidae there is an inturned base similar in appearance to a diaphragm. It is
penetrated by the HYDROPORE.

Internal and transverse shelves or ridges of perisarc in the hydrotheca are
termed INTRATHECAL SEPTA. These may form useful attachment points for the
hydranth, facilitating its withdrawal.

INTERNAL TEETH, situated within the hydrotheca just below the margin, are
characteristic of certain Sertulariidae. Their function is not clear; the number
and position are diagnostic in certain species.

In certain families the hydrotheca is provided with a lid, or OPERCULUM,
consisting of one or more valves meeting in the centre. Broch (1918) showed

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA is

that in some members of the Campanulinidae the opercular valves are formed
from the distal part of the hydrotheca, and simply fold inwards to close the
aperture. In other campanulinids and in the Sertulariidae the operculum is
formed from the primary covering of the hydrotheca and the opercular seg-
ments are seated and hinged in embayments of the hydrothecal margin.

The arrangement of the hydrothecae on the stem and branches varies.
There may be a single row of hydrothecae on one surface, two rows of hydro-
thecae on opposite surfaces (with OPPOSITE or ALTERNATE arrangement), many
longitudinal rows, or the arrangement may be quite irregular. If the hydrothe-
cae are not quite opposite or not quite alternate the terms SUBOPPOSITE and
SUBALTERNATE are used. When the hydrothecae are borne on one surface, or face
towards one surface, that surface is said to be the ANTERIOR FACE and the
opposite surface the POSTERIOR FACE. Hydrothecae may be borne on the stem
(CAULINE HYDROTHECAE) and all its branches, or they may be restricted to the
branches or the hydrocladia.

NEMATOTHECAE contain the nematophores. They are characteristic of the
Plumulariidae and a few genera of Lafoeidae and Haleciidae. They may be
sessile or pedicellate, one-chambered or two-chambered, movable or immovable.
They may be quite irregularly arranged on the colony, or grouped in a definite
manner around the hydrothecae. In the Plumulariidae there is typically one
below each hydrotheca, the MEDIAN INFERIOR NEMATOTHECA, and one on each
side, the LATERAL NEMATOTHECAE (Fig. 6). There may also be one or two above
the hydrotheca, the SUPERIOR NEMATOTHECAE, and some on the stem, CAULINE
NEMATOTHECAE (Fig. 106).

The GONOTHECA encloses the reproductive bodies of the hydranth genera-
tion (GONOPHORES). It is usually more or less spindle-shaped, and may be smooth,
annulated or spiny, and may be provided with an operculum. The gonothecae

7” _nematophore

naked sarcophore

proximal chamber

1-CHAMBERED

ABSENT

2-CHAMBERED REDUCED
Fig. 8. Types of nematothecae.

16 ANNALS OF THE SOUTH AFRICAN MUSEUM

may be borne singly, or may be aggregated into compound bodies or protected
by special outgrowths.

In the Lafoeidae aggregations of gonothecae, often accompanied by spe-
cially modified nematothecae, form COPPINIAE, or nest-like structures round the
larger stems. In the plumulariid genera Ag/aophenia and Thecocarpus aggrega-
tions of gonothecae are borne on specially modified hydrocladia forming
CORBULAE. Protective branchlets for the gonothecae are termed PHYLACTOCARPS.
They may be formed from a modified hydrocladium or as an appendage to a
hydrocladium.

SQ
arn,
= — <_
~~ we
Modified Appendage of
hydrocladium hydrocladium
UNPROTECTED CORBULA COPPINIA PHYLACTOCARPS

Fig. 9. Types of structures protecting the gonothecae.

In addition to the external skeleton considered so far, some hydroids
possess an INTERNAL SKELETON in the sense that it is contained within, or covered
by, living cells. However, such a skeleton is always ectodermal in origin and its
position is probably secondary. In Hydractinia, for example, the adpressed
stolons of the hydrorhiza may lose the outer perisarc during development, so
that the layer is covered externally by epitheltum—the NAKED COENOSARC.
The basal layer of perisarc may produce spines which penetrate the surface.
Hydrocorella is similar, except that the skeleton is impregnated with lime. In
Rosalinda and Teissiera the internal skeleton of the hydrorhiza consists of anasto-
mosing ribs, or TRABECULAE, which produce spines. The culmination of this pro-
cess is reached in Solanderia where the trabeculae rise up to form an erect and
elaborately branching stem, covered superficially by naked ectoderm.

A typical MEDUSA is radially symmetrical with a convex upper surface, the
EXUMBRELLA, and concave lower surface, the SUBUMBRELLA. The shape varies
from flat and disc-shaped to deep bell-shaped or conical. The mouth is borne on

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA iy

apical process stomach

a

apical canal
hypostome
exumbrella
radial canal
subumbrella

subumbrellar oral tentacle

cavity gonad
circular canal
marginal bulb —@y¥ ocellus

& ff
4 Se §s— abaxial Surf.

marginal tentacle jf
Ss > velum oe adaxial surf.
interradius a 4
t
adradius ré eich
perradius 2 statocyst

Fig. 10. Composite diagram of medusa to illustrate parts.

a HYPOSTOME, or manubrium, which hangs from the centre, and opens into a
STOMACH, or gastral cavity. From the latter lead RADIAL CANALS, which com-
municate with a CIRCULAR CANAL round the margin. From the margin a VELUM,
or horizontal ectodermal shelf, projects inwards and demarcates a SUBUMBREL-
LAR CAVITY within the bell. The margin also bears the MARGINAL TENTACLES.
At the top of the exumbrella a projecting cone may form an APICAL PROCESS
and may contain an APICAL CANAL communicating with the stomach.

The RADIAL CANALS are usually four in number and impart a tetramerous
symmetry to the whole. From their position the ‘axes’ or radii of the medusa are
derived. The radial canals lie in the PERRADI; alternating with these are the
INTERRADII, and between the perradii and the interradii are the ADRADII.
Occasionally the radial canals are branched or multiplied.

The MOUTH may be simple and circular, e.g. Sarsia, or it may be drawn out
into ORAL LIPS which may be folded or crenulated, e.g. Leuckartiara. It may
also bear simple or branched ORAL TENTACLES. The latter may be borne on the
edge of the mouth or may be set back, as in Bougainvillia, so as to arise just
above it.

The STOMACH and HYPOSTOME may be short, not reaching the edge of the bell,
or may be long and extensile, hanging well below the bell. The jelly of the upper
part of the bell may bulge down into the base of the stomach forming a
PEDUNCLE.

The MARGINAL TENTACLES may be SOLID or HOLLOW, FILIFORM, CAPITATE Or
MONILIFORM, these terms being used as in the hydranth (Fig. 3). They arise from
a swelling of the margin, the MARGINAL BULB. but in some Limnomedusae this

18 ANNALS OF THE SOUTH AFRICAN MUSEUM

bulb is absent. There is usually a tentacle to each bulb, but occasionally marginal
bulbs lack tentacles or one bulb bears a group of tentacles. Rarely the tentacles
are branched (Cladonemidae). The surface of the tentacle facing towards the
centre is said to be ADAXIAL and the outer surface ABAXIAL. In addition to nor-
mal tentacles, reduced tentacles or CIRRI may occur; these are without marginal
bulbs and may be spirally coiled.

The medusa bears the sexual products in GONADS. The gonads are borne
either
(1) on the stomach wall, where they may form a single mass surrounding the

stomach or be split into horizontal or radial segments, or

(2) on the radial canals, where they may vary in shape (oval or elongated,

folded, sinuous, flattened, etc.).

Gonads borne on the stomach may, however, also spread on to the radial
canals, and those on the radial canals may reach the stomach at their inner
ends.

Most medusae possess SENSE-ORGANS, normally borne on or near the margin.
Several types occur:

1. STATOCYSTS, or organs or orientation and equilibrium. They are absent in
the Athecata, but occur in the Thecata and Limnomedusae. There are two
kinds:

(i) ECTODERMAL STATOCYSTS (MARGINAL VESICLES), in the form of hollow pits
or vesicles situated in the velum and lined by ectoderm. They contain
STATOLITHS, or concretions of calcium carbonate. They may be open,
with an opening facing towards the subumbrellar cavity, or closed, when
they hang below the velum.

(ji) ENDODERMAL STATOCYSTS, in the form of sensory clubs growing from the
circular canal. There is a solid axis of endodermal cells of which one or
two terminal ones contain concretions. They may be free, and project
through the margin of the bell, or enclosed, and contained in an ecto-
dermal vesicle.

2. OCELLI, or organs of sight, borne on the marginal bulbs and either adaxial
or abaxial in position. The structure varies from simple patches of red,
brown or black pigment to elaborate organs containing a lens.

3. CORDYLI, club-like structures of unknown function borne on the bell margin.

Medusae may also possess so-called EXCRETORY PORES, which are openings
from the radial canals to the subumbrellar surface.

The typical medusa is free-swimming and able to feed and grow, but
among the hydroids there are numerous cases where the medusa remains
attached to the hydranth as a gonophore and is reduced to a varying degree; its
development appears to be arrested at a certain stage. It is usual to distinguish
the following stages in medusa reduction (originally defined by Kiihn 1914):
|. EUMEDUSOID. Marginal tentacles and sense organs absent or reduced. No

mouth. Velum not penetrated. Radial canals present, but sometimes without
a cavity. May be freed and perform pulsations, but cannot feed or develop
fully.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 19

eA—reduced marginal
tentacle

erst
CN 7 weve eS
Mh, >

subumbrellar
cavity

ES
SS
~
\)

ze
ZS

gonad

pa
P.
as

x

hypostome

rss

Ay,

or

—
—

QS
SS

tC

S'

x:

oan Ey

5 DD.
EUMEDUSOID nats CRYPTOMEDUSOID

(AIOS
Bones:

Ws

y=)
2

i

SS
i

&

SSO

' oO

Me
ne Lo}
emerem ectoderm aN
Tir endoderm \

MOTTE

HETEROMEDUSOID STYLOID

Fig. 11. Types of degenerate medusae (fixed sporosacs).

2. CRYPTOMEDUSOID. Radial canals absent, but a single layer of endoderm, the
ENDODERMAL LAMELLA, present lining the exumbrellar ectoderm. Subum-
brellar cavity distinct, reduced or absent.

3. HETEROMEDUSOID. Endodermal lamella absent. Outer ectoderm two or more-
layered, often enclosing the remnant of a subumbrellar cavity. This may
form an ACROCYSsT for the retention of eggs.

4. styLorp. A simple evagination covered with ectoderm and lined with endo-
derm; the latter with its cavity forming the sPpADIx. The sex cells develop
between the two layers.

These stages have a doubtful value in classification since some species are
sexually dimorphic, with one sex more reduced than the other, e.g. in Tubularia
indivisa and T. regalis the male gonophore is cryptomedusoid and the female
eumedusoid, and in Eulaomedea flexuosa and E. calceolifera the male gonophore
is styloid and the female heteromedusoid. It is, however, important to distinguish
between medusae which develop fully and can be keyed out by typical adult
characters and those which are degenerate and cannot feed or grow. I therefore
propose to follow Rees’s dictum (1957) and retain ‘separate genera for hydroids
with fixed gonophores and for hydroids with free medusae .. ... The term
FIXED SPOROSACS will be used for all degenerate medusoid stages, including the
four described above.

20 ANNALS OF THE SOUTH AFRICAN MUSEUM

It is thus apparent that although in the ‘typical hydroid’ the polyp and
medusa stages alternate and are of more or less equal importance, in some fami-
lies, and particularly in the Plumulariidae and Sertulariidae where fixed sporo-
sacs are the rule, evolution in the polyp generation has outpaced that in the
medusa. In contrast there are some families in which the evolution of the
medusa generation is highly advanced while the polyp is small and inconspic-
uous. In these cases the hydranth, if known, is often of little use in diagnosis and
keys have of necessity to be based on the medusae. This applies to the Lim-
nomedusae, the Campanulinidae and to several families of Athecata.

Species are said to be MONOECIOUS if the male and female sex products are
borne on the same colony or individual, and DIOECIOUS if on separate colonies
or individuals. Hermaphrodite individuals occur rarely.

Development of the fertilized egg produces two kinds of larvae:

1. The PLANULA, an oval or pear-shaped, ciliated body consisting of solid
endoderm surrounded by ectoderm (Fig. 34D). It settles to the bottom,
attaches by the broader anterior end and develops into a polyp.

2. The ACTINULA, resembling a small polyp with two circles of tentacles (Fig.
15D). It settles to the bottom where it rests on the aboral tentacles, attaches
by the aboral end and develops into a polyp.

The eggs may be fertilized in the sea or be retained in the gonophore of the
polyp generation or gonad of the medusa for the initial stages of development.
In some Thecata the eggs may be extruded from the gonotheca but retained in an
ACRocyYsT for the initial stages of development. Special brood-chambers or
MARSUPIA may also occur.

THE STING CELLS

Sting-cells, or NEMATOCYSTS (CNIDOCYSTS), are always present, and are
particularly abundant on the tentacles, the hypostome and certain special tracts
on the hydranth and medusa.

The nematocyst consists of a round, oval or elongated CAPSULE, contain-
ing a coiled TUBE. It discharges the tube by eversion. The tube may or may not
have a thicker basal portion, the BUTT, and is usually armed in part or in whole
by spirally arranged SPINES.

The classification of nematocyst types presented by Weill (1934) has been
adopted here. Weill originally distinguished 17 types in the Cnidaria; since then
additional types have been named, and in 1974 Mariscal listed a total of 26.
Not all of these occur in the Hydroida. A key to the identification of the most
common hydroid types is given below.

1. Discharged tube rolled up like a corkscrew, tube closed at tip DESMONEME (volvent)
— Discharged tube not rolled up, tube open at tip A = ks a ty 2
2. Without butt (HAPLONEME) he A “if - bd re a Se 3
— With butt (HETERONEME) .. a bie Ed a er bi ve #s 6
3. Tube tapering and slightly thicker at base (ANISORHIZA), armed, and with larger spines

near base he ie HETEROTRICHOUS ANISORHIZA

- Tube of equal diameter throughout (IsORHIZA) , ae ben ae ms bye 4

Baie cnet cease

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 21

Tube without well-defined spines (glutinant) Ki om ar ATRICHOUS ISORHIZA
Tube with well-defined spines he P aK ae iw a “2 is 5
Spines in basal region only e6 bi he ag He BASITRICHOUS ISORHIZA
Spines in middle region only we .. |_MEROTRICHOUS ISORHIZA
Butt of equal diameter throughout, tube araaued eae butt i tea ans i 7
Butt of unequal diameter ; te Y rf , AG Pe 8
Butt not more than 3 times length of capsule We See MICROBASIC MASTIGOPHORE
Butt at least 4 times length of capsule .. oe oe MACROBASIC MASTIGOPHORE
Butt dilated at base ; at an ie as STENOTELE (penetrant)
Butt dilated at distal end (EURYTELE) ae a i i Bs sel op? 9
Butt not more than 3 times length of capsule .. Be ae MICROBASIC EURYTELE
Butt at least 4 times length of capsule .. x. Ms oe MACROBASIC EURYTELE

The total ensemble of nematocyst types possessed by a species is known as

its CNIDOME.

Nematocysts are occasionally concentrated on special stalks or processes

known as CNIDOPHORES. These may occur in the polyp generation (e.g. Euden-
drium racemosum) or in the medusa (Zanclea, Proboscidactyla).

—tube

UNDISCHARGED

DISCHARGED

WW Ot w
= Qs Oa a nL O w Ow i“ oO Siar
Lu OQ= as A= DN DS DO uw WwW M iw
= Se Se Ss <> == K fF te
O = oO & Bee 5& oO co O co > oO >
= ee =O = © = © Oo O06 Z Ox Oa
” pe ry “rn ace ro xo WW ox > eS
Lu A= ie KE = @©n= Or _ oo O w
= x < a A O Sb IE e = x
oc cp) Ss” S

WW <

is = WwW < <

Ww = => =

=

Fig. 12. Nematocyst structure and type.

22 ANNALS OF THE SOUTH AFRICAN MUSEUM

ECOLOGY

ASEXUAL REPRODUCTION is reponsible for colony-formation and budding
off of medusae. A form of asexual reproduction known as STOLONIZATION may
also occur in the polyp generation, when the ends of the stem or branches pro-
duce tendril-like stolons which reattach and form new colonies. Sometimes the
ends of such stolons separate off (SCHIZOGENY) forming bodies similar to planu-
lae, e.g. Coryne pusilla (Fig. 19G).

BUDDING of medusae may also occur, either from the stomach wall (e.g.
Rathkea) or from the marginal bulbs (Hybocodon). FISSION is more rare, but
occurs in Staurocladia and Craspedacusta. The medusa Cytaeis tetrastyla buds
off young hydranths from the stomach wall (Kramp 1959).

REGENERATION, or regrowth after injury, is common. Colonies may die
down and regenerate later from the hydrorhiza or from the hydrocaulus. Many
forms are provided with HINGE-JOINTS (Fig. 78, 115C), which are strongly marked
oblique nodes in the perisarc where movement can occur and where rupture is
easy (comparable to the ‘breaking point’ in a lizard’s tail). Hinge-joints often
occur in pairs with a short internode between them.

In the Thecata regeneration of hydrothecae may occur. In Halecium the
new hydrotheca develops from within the old one and repetition of this process
results in a tier of hydrothecae one within the other (Fig. 46). Sometimes only
the margin regenerates resulting in a hydrotheca with numerous margins and
often adding considerably to the depth (Fig. 56A). This is common in the Lafoei-
dae and Sertulariidae.

In the Moerisiidae special resting bodies or PODOCYSTS can survive death
of the colony to regenerate later.

The Hydroida often have close relationships with other animals. The lar-
vae may settle and grow on almost any animal, including other hydroids, simply
using them as a convenient substratum. Such forms are said to be EPIZOOTIC.
In some cases the relationship is closer, and there seems to be a definite selec-
tion of the host by the epizoite. Hydroids which live on the shells of molluscs
or hermits are well known and are well represented in South Africa. It is often
difficult to draw a boundary between epizoism and COMMENSALISM, where
both animals obtain benefit from the association. Proboscidactyla (Lar), which
lives on polychaet tubes, has been proved to be an obligatory commensal.

Table 1 gives a list of South African host animals and the hydroids which
have been recorded on them as epizooites, commensals or parasites, but
hydroids acting as hosts have not been included. In addition to these, sessile
barnacles, the common shore mussels and the red-bait Pyura may carry a thick
population of hydroids.

In a few members of the Plumulariidae and Lafoeidae colonies may be
epizootic on the same species of hydroid or on closely related species. Such
forms are said to be AUTO-EPIZOOTIC (Millard 1973). This commonly results in
the stunting of the epizoite in whole or in part, so that its appearance is abnormal,
and it is difficult to recognize.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 23

Some hydroids occur only on algae and may have special adaptations for
this substratum. In Plumularia filicaulis the gonothecae are recumbent and
cemented to the alga. In Lineolaria the hydrothecae are fused for almost their

entire length to the alga.

Table 1

A list of host animals with their recorded hydroid epizoites, commensals or parasites.

Host

SPONGES

CORALS
POLY ZOA

POLYCHAETS
Laonome sp.
Sabella penicillus L.

CIRRIPEDES (stalked)
Lepas sp.

ISOPODS (parasitic)

Codonophilus (Meinertia)
imbricata (Fabr.)
HERMITS

2? Anapagurus hendersoni Barn.

Clibanarius sp.
Dardanus arrosor (Herbst)

99 99
Diogenes brevirostris Stimps.
Diogenes costatus (Fabr.)

Eupagurus placens Stebb.

DECAPODS
Halicarcinus sp.

Hymenosoma orbiculare Desm.

Jasus lalandii (M. Edw.)

BIVALVES
Crassatella capensis Lamy

GASTROPODS
Argobuccinum argus (Gm.)
Astraea tayloriana (Smith)
Bullia annulata (Lam.)
Bullia laevissima (Gm.)
Cancellaria sp.
Fusus verruculatus Lam.
Melapium lineatum (Lam.)
Nassa analogica Sow.
Nassa arcularia L.
Nassa coronata Brug.
Nassa fenestrata Marr.
Nassa kraussiana (Dunk.)
Nassa speciosa Adams

Hydroid

Hybocodon unicus
Zyzzyzus solitarius
Sphaerocoryne bedoti
Zanclea sp.

Zanclea sp.

Proboscidactyla sp.
Clytia hemisphaerica

Clytia hummelinki
Obelia dichotoma

Bougainvillia meinertiae

Dicoryne conferta
Hydrocorella africana
Clavactinia multitentaculata
Hydrocorella africana
Hydrocorella africana
Hydractinia diogenes
Hydrocorella africana
Hydrocorella africana

Leuckartiara octona
Clytia hemisphaerica
Obelia geniculata

Merona cornucopiae

Hydrocorella africana
Clavactinia multitentaculata
Leuckartiara octona
Hydrocorella africana
Hydrocorella africana
Hydrocorella africana
Hydrocorella africana
Leuckartiara octona
Hydrocorella africana
Cytaeis nassa

Cytaeis nassa
Hydractinia kaffraria
Hydrocorella africana
Hydractinia marsupialia
Leuckartiara octona

Family

Tubulariidae
Tubulariidae
Corynidae
Zancleidae

Zancleidae

Proboscidactylidae
Campanulariidae

Campanulariidae
Campanulariidae

Bougainvilliidae ©

Bougainvilliidae
Hydractiniidae
Hydractiniidae
Hydractiniidae
Hydractiniidae
Hydractiniidae
Hydractiniidae
Hydractiniidae

Pandeidae
Campanulariidae
Campanulariidae

Clavidae

Hydractiniidae
Hydractiniidae
Pandeidae
Hydractiniidae
Hydractiniidae
Hydractiniidae
Hydractiniidae
Pandeidae
Hydractiniidae
Cytaeidae
Cytaeidae
Hydractiniidae
Hydractiniidae
Hydractiniidae
Pandeidae

24 ANNALS OF THE SOUTH AFRICAN MUSEUM

Table 1 (cont.)

Host Hydroid Family
Thais squamosa (Lam.) Hydractinia altispina Hydractinitidae
Turbo sarmaticus L. Hydrocorella africana Hydractiniidae
i x Clavactinia multitentaculata Hydractiniidae
Turitella sp. Hydrocorella africana Hydractintidae
Vermetus sp. Hydrocorella africana Hydractintidae
PTEROPODS
Diacria trispinosa Les. Clytia gravieri Campanulariidae
FISH
Ambassis safgha (Forsk.) Hydrichthys boycei Pandeidae
Chaetodon lunula (Lac.) Hydrichthys boycei Pandeidae
Mugil sp. Hydrichthys boycei Pandeidae
Squalus fernandinus Molina Obelia dichotoma Campanulartidae
TURTLES
Caretta caretta (L.) Obelia dichotoma Campanulariidae
Eretmochelys imbricata (L.) Clytia hemisphaerica Campanulariidae

N.B. Ritchie (19075) records Nassa crepidula as a host for Podocoryne carnea, and Stechow
(1925a) records Oliva auricularia as a host for Hydrocorella africana and Sipho islandicus
for Stylactis siphonis. These three molluscs are not known from South Africa and are
omitted from the table.

ORDER HYDROIDA

Diagnosis. Hydrozoa typically with alternating asexual polyp and sexual medusa
generations. Polyp generation typically sedentary, rarely planktonic, with peri-
sarc and well-developed tentacles. Medusa generation budded from polyp
generation and typically free-swimming though sometimes reduced to a fixed
sporosac; with velum and sense-organs in the form of ocelli, statocysts or cordyll.

KEY TO SUBORDERS

1. Polyp generation planktonic, in the form of eee colonies with a central

gastrozooid ' ie sei
Polyp generation usually sedentary, if planktonic non as above 8 2D

2. Hydranth with a definite hydrotheca of definite shape. Medusa, when prone

usually flattened; with gonads on radial canals; with or without statocysts and if
present ectodermal ; : THECATA p. 125

— Hydranth with no definite hydrotheca. Medusa, wheal present, usually deep; with

gonads on radial canals or stomach; with or without statocysts and if present
endodermal ate ; : : ; ne fy a af 3

3. Medusa without sist OCpEEs aad “geal th aca with gonads on stomach
ATHECATA p. 24

-— Medusa with or without statocysts, without ocelli; with gonads on stomach or
radial canals ne a ve A fy ies ae LIMNOMEDUSAE p. 464

SUBORDER ATHECATA
Diagnosis. Hydranth with no definite hydrotheca or gonotheca, though a gela-
tinous or membranous pseudohydrotheca may cover the base of the body. Pro-
ducing fixed sporosacs or free medusae. Medusa usually deep bell-shaped;

with gonads on stomach but rarely extending perradially on subumbrella;
without statocysts; usually with ocelli.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA

KEY TO FAMILIES

2D

[Families in which the polyp generation is not represented in South Africa are bracketed]
1.

Mature hydranth with at least some tentacles capitate (with the exception of one
non-South African genus of Zancleidae: Pteroclava), or with tentacles absent. If
absent, hydranth not parasitic ..

Mature hydranth with all tentacles filiform (with a few exceptions in non- n-South
African genera of ee or with tentacles absent. If absent, hydranth
parasitic ae ae Bn

Hydranths Ree
Hydranths colonial, united by a a common hydrocaulus or hydrorhiza

Hydranth tentacles all capitate, numerous and scattered .. MYRIOTHELIDAE,
At least some tentacles not capitate, at least some arranged in definite whorls

Oral tentacles scattered and eee aboral tentacles in one whorl and filiform
(or rarely absent) : [ACAULIDAE]
Tentacles in three whorls, one oral and capitate, ‘two aboral and imperfectly
moniliform a ute es [TRICYCLUSIDAE |

Hydranth with capitate net utes ee ae Pranehed’ aboral tentacles bearing
several rows of capitulae : fe oe .. _CLADOCORYNIDAE,
Hydranth without ‘branched’ tentacles

Skeleton internal . ,

Skeleton, if present, external

Skeleton forming erect, branching stems ae * - SOLANDERIIDAE,

Skeleton restricted to incrusting hydrorhiza se ae ee Ls
Hydranth with an oral whorl of capitate tentacles only .. [HYDROCORYNIDAE]
Hydranth with scattered capitate tentacles .. : : .. ZANCLEIDAE,
Stem pinnate. Aboral tentacles of hydranth ne filiform a in one whorl; oral
tentacles capitate and scattered .. |HALOCORDYLIDAE,

Stem not pinnate. Tentacles of hydranth not as 5 above

Oral tentacles in one whorl, capitate; aboral tentacles ieiteeted: oak:
form 2 ASYNCORYNIDAE,
All tentacles usually capitate, sometimes an 1 aboral whorl of vestigial filiform
tentacles as well, rarely tentacles absent

Medusa, when present, with simple tubular mouth and 24 simple renal ae
tacles. Polyp generation stolonial or with erect branched stem with firm peri-
sarc ‘ .. CORYNIDAE,
Medusa, when present, not as “above. Polyp pencratiod always stolonial, often
polymorphic

Hydranth with seas fenicles: Medusa mith 2-4 ster eel feniaeles Peano
stalked cnidophores ee ZANCLEIDAE,
Hydranth with one whorl of capitate tentacles or tentacles absent. Medusa, when
present, without cnidophores

Hydranth with one whorl of capitate a nciee Ee or tion a Pega ee of
aboral filiform tentacles. Medusa creeping, with numerous branched tentacles
provided with adhesive discs .. CLADONEMIDAE,
Colony poly- or dimorphic, with Eocene and ‘dactylozooids, of which at
least some lack tentacles. Producing fixed sporosacs

Gastrozooids and dactylozooids without tentacles, but with eae or Satie

nematocyst clusters es .. [HALOCORYNIDAE]
Gastrozooids without tentacles, dactylozooids sith one whorl of capitate ten-
tacles a ‘ : ts a [PTILOCODIIDAE]

. Hydranth with two 5 ations of aticles: one oral and one aboral, with gonophores

borne on blastostyles between them

Hydranth not as above ee : ees 7 ae x.
Hydranth pelagic, solitary and hee stem aA oe [MARGELOPSIDAE]
Hydranth sedentary, with well-developed stem

a5

14

16
18

V7

26 ANNALS OF THE SOUTH AFRICAN MUSEUM

17. Stem with perisarc, which reaches to base of hydranth body and is usually

stiff fa TUBULARIIDAE, p. 30
— Perisarc feebly developed, restricted ‘to base of stem. Anchoring filaments

present 7: : — CORYMORPHIDAE, p. 26
18. Hydranth patios ceraealaly Scan over odie iedtren, when present, with 4

lips with a continuous row of nematocyst clusters along margin .. CLAVIDAE, p. 69
— Hydranth tentacles concentrated at oral end, either in one whorl or 2-4 whorls

close together, or tentacles absent a Bs: 19
19. Hydranth with trumpet-shaped hypostome. Ne medics Spores bore on

body of hydranth below tentacles ass oe EUDENDRIIDAE, p. 77
— Hydranth with conical hypostome. Medusa resent ¢ or Pabeent ye 20

20. -Hydranth borne on definite perisarc-covered stem which is usually prance
Medusa, when present, with branched or unbranched oral tentacles inserted
above mouth-rim, marginal tentacles often in groups BOUGAINVILLIIDAE, p. 88

— Polyp generation stolonial. Medusa, when present, not as above : 21

21. Medusa with unbranched oral tentacles borne on mouth-rim and 4 niece
tentacles. Hydranths never polymorphic; medusa-buds borne directly on hydro-

rhiza - .. CYTAEIDAE, p. 118
— Medusa, when present, without true oral tentacles, but with 4 oe which may be

drawn out to form oralarms .. : f ; 22
22. Medusa, when present, with 4 oral arms Setar eles of hemaicce Risheanits

naked ee 23
— Medusa without oral arms; lips usually without clusters of nematocysts. Hydranth

with or without perisarc ee 24
23. Medusa, when present, with solitary atcinal onecles reagdhernihs polvaionahe

with gonophores borne on gonozooids 3 Br HYDRACTINIIDAE p. 104

— Medusa with marginal tentacles in 8 groups. Eebdieamtine not polymorphic, with
very extensile thread-like tentacles; medusa-buds borne directly on hydro-
rhiza har ‘ : ae ae [RATHKEIDAE ]

24. Marginal tentacles of aedte svelte at ns HnGoe a terminal cluster of nemato-

cysts .. PANDEIDAE p. 121
— Marginal tentacles at educa not evollen at base, atta a femme cluster of nemato-

cysts 2 on ae ze Pe i Ws ae [CALYCOPSIDAE]

Family Corymorphidae

Diagnosis. Large, solitary hydroids with a cylindrical hydrocaulus and terminal
hydranth. Perisarc feebly developed. Hydrocaulus usually with anchoring
filaments. Hydranth with conical hypostome and two sets of tentacles: oral and
aboral. Oral tentacles filiform, moniliform or capitate. Aboral tentacles filiform
or moniliform. Gonophores borne immediately above aboral tentacles, usually
on branching blastostyles, in the form of fixed sporosacs or free medusae.

Medusa, when present, with simple circular mouth, four radial canals and
one to four capitate or moniliform marginal tentacles. No exumbrellar nema-
tocyst tracts or ocelli. Gonad completely surrounding hypostome.

Introduction. There are several theories on evolution among the athecate fami-
lies. Rees (1957) believes that the basic stock is to be found amongst the simpler
Corymorphidae, e.g. Euphysa aurata Forbes, where the hydranths are of simple
construction, with two whorls of tentacles and poorly developed perisarc.
Within the family, however, there has been a trend among certain forms to an
increase in size and elaboration of structure, culminating in the giant Branchio-
cerianthus. These structural elaborations include:

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA ps) |

1. The presence of longitudinal ENDODERMAL CANALS in the hydrocaulus, e.g.
Corymorpha and Branchiocerianthus. These occur in the periphery of an other-
wise diffuse and parenchymatous endoderm which often fills the whole cavity
of the coenosarc.

2. The presence of a transverse DIAPHRAGM Of soft tissue in the hydranth dividing
the cavity into an oral and an aboral chamber, presumably for the support
of the aboral tentacles. (This diaphragm is not comparable with that found in
the Thecata.)

3. The elaboration of a system of branched or unbranched ‘RADIAL CANALS’ in the
hydranth immediately above the diaphragm.

4. An increase in the number of tentacles.

5. The development of a bilateral symmetry in Branchiocerianthus to permit feed-
ing in strong currents at great depths.

The perisarc is in general poorly developed and in the form of a gelatinous
sheath, which sometimes fits quite loosely. It never extends on to the body of the
hydranth and is- usually restricted to the basal part of the hydrocaulus. In
Branchiocerianthus and Corymorpha the hydrorhiza is in the form of ANCHORING
FILAMENTS, Slender root-like tubes covered with thin perisarc. These are adapta-
tions for anchoring the body in a substratum of mud or sand.

Tentacles are always in two sets, oral and aboral, and may be moniliform,
capitate or filiform.

The aboral tentacles are usually in one whorl, but the oral tentacles may be
in several, or many, close whorls concentrated around the mouth.

The gonophores are borne immediately above the aboral tentacles, usually
on hollow, branching blastostyles. They may develop into free medusae or
remain attached as fixed sporosacs. In many medusa species the hydranth
generation is still unknown.

The subdivision of the Corymorphidae is still far from settled. It has been
discussed in papers by Rees (1938, 1957), Kramp (1949) and Prévot
(959):

In the key which follows only a few of the more important genera with
known hydranth generations have been included, arid the diagnostic characters
have been taken from Brinckmann-Voss (1970).

KEY TO GENERA

[Genera not represented in South Africa are bracketed]

1. Hydranth bilaterally symmetrical, with two sets of filiform tentacles
Branchiocerianthus p. 28

Hydranth radially symmetrical .. x : , , as 2,
2. Hydranth with two sets of filiform tentacles. iitedinge with pointed Seca process

and one moniliform tentacle : .. Corymorpha p. 30
— Hydranth with all tentacles not filiform. Medusa, when present, without apical

process a : : ce ; 3

3. Hydranth with capitate or arson eel feniacls iE Onlifo poral araeles
Medusa with 1-4 moniliform tentacles ny [Euphysa]
— Hydranth with moniliform oral tentacles, Fsioaat aiarel ines. Medusa with one
Capitate tentacle .. Ba me sn aya oe a .. [Vannuccia]

28 ANNALS OF THE SOUTH AFRICAN MUSEUM

Genus Branchiocerianthus Mark, 1898
Syn. Branchiaria Stechow, 1921.
Diagnosis. Hydranth bilaterally symmetrical and excentrically seated on
hydrocaulus, with diaphragm, radial canals and two sets of filiform tentacles.
Hydrocaulus rooted by anchoring filaments. Perisarc rudimentary. Gonophores
in the form of fixed sporosacs borne on blastostyles arising immediately above
the aboral tentacles.

Type species: Branchiocerianthus urceolus Mark, 1898.

One species only from South Africa.

Branchiocerianthus imperator (Allman, 1885)

Fig. 13
Monocaulus imperator Allman, 1885: 753, fig. 265. Allman, 1888: 5, pl. 3.
Branchiocerianthus imperator: Miyajima, 1900: 235, figs 1-2, pls 14-15.

Stechow, 1909: 49, figs 1-4, pl. 7 (figs 1-8). Brattstro6m, 1957: 5. Vervoort, 19665: 99.
Diagnosis. Body very large, over 2 m in length when mature. Hydrocaulus
tubular, narrowest distally and separated from hydranth by a diaphragm and
an annular constriction, widening proximally and ending in a bulbous swelling
bearing anchoring filaments. Base of hydrocaulus and anchoring filaments
covered with thin perisarc. Coelenteron filled with vacuolated endoderm cells
but containing a circle of longitudinal endodermal canals at periphery; these
visible externally as longitudinal striations.

Hydranth disc-shaped, bilaterally symmetrical, especially in young indivi-
duals, with an excentric (‘ventral’) insertion of hydrocaulus and an excentric
(‘dorsal’) hypostome; mouth directed at an angle of 45° to hydrocaulus. Hypo-
stome round in section. Aboral tentacles 100-250 in number and reaching
300 mm, in one, or in two closely alternating whorls, the series broken in the
ventral axis where new tentacles develop. Oral tentacles 48-180 in number and
reaching 55 mm, in several close whorls. Internal cavity divided by a transverse
diaphragm with a circular opening at level of aboral tentacles. Many unbranched
radial canals present immediately above diaphragm and ending blindly at
periphery.

Blastostyles 96-160 in number, in 1-3 whorls, the youngest ventral, branch-
ing 6-8 times, reaching 63 mm, bearing in total up to 600 sporosacs. Each
branch terminating in a battery of nematocysts.

Colour: reddish, varying from pale pink to scarlet and maroon.

Remarks. Since the only material from the South African coast was not in good

condition (Vervoort 19665), the dimensions and tentacle numbers given above
have been taken from Brattstr6m’s summary (1957).

Distribution outside South Africa. Pacific and Indian Oceans, in tropical and
warm temperate waters. Type localities: North Pacific and Japan.

Distribution in South Africa. One record only, off Mocgambique in 730 m.
25/35 (vd)

Ga 4

SG 22

: WA
et
te of Jee

x fez re F, Ae
ir FI 2 rea! 7 (ag
Noy: ree eS eed
pe RE I

RNS

= = ————_=7 = 2 - ite
eae re

sss
SS
=X,

——
Zz =
—SS—
= —

==
SS

—

Ze
==

. =
SS
== —S

Fig. 13.
awn from Miyajima (1900). Scale in cm.

30 ANNALS OF THE SOUTH AFRICAN MUSEUM

Genus Corymorpha M. Sars, 1835

Syn. Steenstrupia Forbes, 1846.

Diagnosis. Hydranth radially symmetrical, with diaphragm and two sets of
filiform tentacles but no radial canals. Hydrocaulus rooted by anchoring fila-
ments. Perisarc a transparent membranous sheath over hydrocaulus. Gono-
phores producing free medusae, borne on blastostyles immediately above aboral
tentacles. Medusa with pointed apex and apical canal, with one moniliform
marginal tentacle.

Type species: Corymorpha nutans M. Sars, 1835.
One species only from South Africa.

Corymorpha sp.
Corymorpha sp. Millard, 1959a: 299.

Diagnosis. Hydranth 14 mm in length, with at least 18 oral tentacles and 18
aboral tentacles. Oral tentacles in two close whorls. Reproduction unknown.

Remarks. Only one infertile specimen has been found, and it is impossible to
delegate it to a species.

Distribution in South Africa. Durban Bay, in mud. 29/31 (s).

Family Tubulariidae

Diagnosis. Athecate, solitary or colonial hydroids with erect stems covered in
perisarc to immediately below the hydranth. Hydranth large, with conical
hypostome and two sets of filiform tentacles (aboral and oral) in adult, the oral
tentacles capitate in the young stages. Gonophores borne on blastostyles which
arise immediately above the aboral tentacles, in the form of fixed sporosacs or
free medusae. Medusa, when present, with four radial canals, gonad completely
surrounding hypostome, one to four perradial marginal tentacles, without ocelli.
An actinula stage present in the life-history.

Introduction. The Tubulariidae are characterized by tall perisarc-covered stems
and large terminal hydranths. In most species the stem is unbranched and con-
nected with other stems only by the reticular hydrorhiza. In Zyzzyzus however,
the hydranths are solitary and in a few species of Tubularia the stem branches
irregularly.

Growth occurs at the distal end of the stem where the newly formed perisarc
is thin and where the coenosarc is dilated. During growth groups of annulations
are formed at this level. These occur quite irregularly in the stem and their
formation is apparently influenced by external factors. At this point, too, the
hydranth may be shed in unfavourable conditions, to be regenerated later from
the living coenosarc..

The histology is comparatively elaborate, second only to that in the Cory-
morphidae. The endoderm of the stem in many species forms longitudinal

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 3]

ridges, visible as striations in external view. These ridges may meet in the centre,
so dividing the coelenteron into longitudinal canals, or may themselves contain
canals. In Zyzzyzus separate ENDODERMAL CANALS are present within the normal
vacuolated endoderm similar to those in the Corymorphidae. The canals com-
municate distally with the gastral cavity of the hydranth.

As in the Corymorphidae the endoderm of the hydranth is thickened round
the base of the body as a DIAPHRAGM or cushion of large vacuolated endoderm
cells bulging towards the centre and constricting the coelenteron. It may be
separated from the endoderm of the aboral tentacles by a lamella of mesogloea.
Similarly the endoderm of the oral tentacles may be separated from that lining
the hypostome by a mesogloeal lamella.

These specializations are associated with the large size of the hydranth.

The gonophores, which are borne on blastostyles arising immediately above
the aboral tentacles, may be in the form of fixed sporosacs (Jubularia and
Zyzzyzus) or become freed as medusae (Ectopleura and Hybocodon). The degree
of development of the sporosac varies between species and sometimes within
the same species. The medusa is little modified and close to the hypothetical
ancestral condition postulated by Rees (1957). In Ectopleura the medusa is
radially symmetrical usually with four marginal tentacles, but in Hybocodon it
is asymmetrical with one or a group of tentacles on one edge and the tentacles
are moniliform.

All the Tubulariidae possess an ACTINULA larva, which is released either by
the sporosac or by the medusa. The eggs are large and yolky and only a few
develop into actinulae at the expense of the others. The actinula possesses one
whorl of filiform aboral tentacles and one whorl of capitate oral tentacles of
which the latter may only develop after release. It does not swam, but sinks
passively to the bottom where it rests mouth upwards on the aboral tentacles.
Growth of the aboral pole produces a short stalk which then achieves attach-
ment to the substratum by the developing perisarc. The young hydranth thus
possesses filiform and capitate tentacles. As development proceeds the oral
tentacles lose their capitula.

Rees (1957) considers that the Tubulariidae evolved from the unspecialized
members of the Corymorphidae by the development of firm perisarc, loss of
anchoring filaments and partial atrophy of the stem canals and diaphragm.
Zyzzyzus represents an intermediate stage in its solitary habit, its soft perisarc
and its endodermal canals. It is included in the Tubulariidae by virtue of the
actinula larva. It possesses rooting processes which, however, are not homo-
logous with the rooting filaments of Corymorphids but are adaptations to a habi-
tat in sponges.

KEY TO GENERA

1. Hydranth solitary, with rooting processes and soft perisarc .. es Zyzzyzus p. 38
— Hydranths usually colonial with a common hydrorhiza, without rooting processes

and with firm perisarc .. ae uae i x8 zn ye ae be D
2. Gonophores in the form of fixed sporosacs .. we ee se Tubularia p. 35

— Gonophores released as free medusae

32 ANNALS OF THE SOUTH AFRICAN MUSEUM

3. Medusa radially symmetrical, with two or four marginal tentacles .. -Ectopleura p. 32
Medusa asymmetrical, with one or a group of marginal tentacles .. Hybocodon p. 32

Genus Ectopleura L. Agassiz, 1862

Diagnosis. Hydranths solitary or colonial, without rooting processes. Hydro-
caulus with firm perisarc. Gonophores released as free-swimming medusae.
Medusa radially symmetrical, with eight exumbrellar tracks of nematocysts.

Type species: Tubularia dumortieri van Beneden, 1844.
One polyp species only from South Africa.

Ectopleura bethae (Warren, 1908)
Fig. 14A—D

Tubularia betheris Warren, 1908: 280, pl. 45 (figs 10-11), pl. 46 (fig. 12).
Ectopleura bethae: Stechow, 1921la: 249. Millard & Bouillon, 1974: 10.

Diagnosis. Hydrorhiza branching, giving rise to unbranched stems up to 33 mm
in length, each bearing a single terminal hydranth. Perisarc firm, irregularly
annulated, especially near base, becoming very thin distally where it terminates
on a dilation of the coenosarc just below the hydranth. Hydranth with 9-17
long aboral tentacles and 10-17 shorter oral tentacles. Oral tentacles capitate
in young hydranth, filiform in mature hydranth but with concentration of nema-
tocysts at distal end.

Blastostyles arising just above aboral tentacles, bearing irregular clusters
of medusa-buds. Medusa-bud with four capitate marginal tentacles, reaching at
least 0,2 mm in diameter before release. Adult medusa unknown.

Distribution outside South Africa. S.E. Madagascar.

Distribution in South Africa. Natal and Inhaca. Type locality: between Park
Rynie and Alexander Junction. 30/30 (1), 26/32

Genus Hybocodon L. Agassiz, 1862

Diagnosis. Hydranths colonial, without rooting processes. Hydrocaulus with
firm perisarc. Gonophores released as free-swimming medusae. Medusa asym-
metrical with margin at oblique angle, with 1-3 marginal tentacles arising from
a single large marginal bulb, the remaining three marginal bulbs rudimentary.

Type species: Hybocodon prolifer L. Agassiz, 1862.
One species only from South Africa.

Hybocodon unicus (Browne, 1902)

Fig. 14E-H
Amphicodon unicus Browne, 1902: 276.
Hybocodon unicus: Browne & Kramp, 1939: 273, pl. 15 (figs 2-3). Kramp, 1959: 87, fig. 35.
Kramp, 1961: 44. Kramp, 1968: 13, fig. 20.

Diagnosis. Hydrorhiza branching within the sponge Hymeniacedon perlevis

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 33

ee

ee

——i_

rm

Ui ca eae es

Fig. 14.

Ectopleura bethae. A, colony; B, mature hydranth with medusa-buds; C, young hydranth

with capitate oral tentacles; D, oldest medusa-bud found.

Hybocodon unicus. E, mature hydranth with medusa-buds; F and G, recently hatched medusae,
G in ventral view; H, nematocysts, from left to right a desmoneme, stenotele, atrichous
isorhiza, microbasic mastigophore.

Scale: A in cm, H in um, the rest in mm/10.

34 ANNALS OF THE SOUTH AFRICAN MUSEUM

(Montagu), giving rise to unbranched stems up to 19 mm in height, each bearing
a single terminal hydranth. Perisarc firm, not annulated, becoming mem-
branous and swollen immediately below hydranth. Hydranth with 12-19 long
aboral tentacles and 15-28 shorter oral tentacles, the latter in two close whorls.
Blastostyles arising just above aboral tentacles, short and branching, bearing
clusters of medusa-buds.

Medusa on release 0,75 mm in height and 0,65 mm in maximum diameter;
with a single marginal tentacle arising from an enlarged marginal bulb; bell
asymmetrical, bulging on side of marginal tentacle and with margin slightly
oblique; the three small marginal bulbs produced over exumbrellar surface for
a short distance; hypostome cylindrical and reaching practically to bell margin;
with four unbranched radial canals; with scattered nematocysts on exumbrellar
surface. Marginal tentacle about 1,3 mm when extended, moniliform, with 26
batteries of nematocysts. Adult medusa (not reported from South Africa) bell-
shaped, 3 mm in height and 2 mm in diameter, with gonad surrounding hypo-
stome from base almost to mouth.

Colour: hydranth transparent with orange-red stomach and hypostome,
sometimes with darker longitudinal streaks on hypostome. Medusa transparent
with orange-yellow hypostome and marginal bulbs.

Nematocysts of four types;

(i) Desmonemes, 4,8 x 3,0 — 6,6 x 5,4 ». Capsule oval, undischarged thread
in two coils.
(ii) Stenoteles, 6,0 x 4,8 — 10,8 x 9,6 uw. Capsule oval. Numerous.
(iii) Microbasic mastigophores, 9,0 x 4,8 — 10,8 x 4,8 ». Capsule elongate-
oval. Butt approximately equal to capsule in length.

(iv) Atrichous isorhizas, 9,0 x 7,2 — 10,2 x 7,2 ». Capsule oval to spherical.
Rare.

Remarks. The absence of nematocyst tracks on the bell of the medusa clearly
distinguishes this species from the well-known H. prolifer. There is also no sign
of the asexual budding so characteristic of the latter species. In the young living
medusa the marginal bulb at the base of the tentacle is single and bean-shaped,
not double as described by Browne & Kramp for H. unicus. The double appear-
ance is assumed on contraction during fixation. I have assigned the species
to H. unicus on the scattered nematocysts, the long hypostome and the distinc-
tive process of the three small marginal bulbs which ‘is attached to and curls over
the margin of the umbrella’ (Browne & Kramp 1939).

This is apparently the first discovery of the hydranth of H. unicus, and the
first record of the genus from South Africa.

Distribution outside South Africa. South Atlantic and India. Type locality:
Falkland Islands.

Distribution in South Africa. Sea Point only, lower littoral under ledges. 33/18
(1)

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 35

Genus Tubularia Linnaeus, 1758
Syn. Parypha L. Agassiz, 1862.

Diagnosis. Hydranths colonial, without rooting processes. Hydrocaulus with
firm perisarc. Gonophores in the form of fixed sporosacs, either eumedusoid or
cryptomedusoid.

Type species: Tubularia indivisa Linnaeus, 1758.

KEY TO SPECIES
(Doubtful species not included, for these see p. 38)

1. Stem unbranched. Apical processes of female gonophores laterally compressed T. warreni
— Stem branched. Apical processes of female gonophores conical es ts T. larynx

Tubularia larynx Ellis & Solander, 1786
Fig. 15H-J
Tubularia larynx Ellis & Solander, 1786: 31. Allman, 1872: 406, pl. 21. Pyefinch & Downing,

1949: 21, figs 1-2. Hawes, 1955: 333, figs 1-5. Millard, 1959b: 240. Brinckmann-Voss

UOT Orsi:

Diagnosis. Hydrorhiza a matted reticulum, giving rise to irregularly branched
stems reaching a maximum height of 70 mm, each branch bearing a terminal
hydranth. Perisarc firm, smooth for the most part, but with scattered groups of
shallow annulations, becoming thin distally and terminating below the
hydranth body. Cavity of coenosarc divided longitudinally by 2-4 endodermal
ridges which may meet in the centre and may contain canals. Hydranth with
up to 27 long aboral tentacles and up to 19 shorter oral tentacles.

Blastostyles arising just above aboral tentacles in 1-3 closely alternating
verticils, male and female usually on separate hydranths. Blastostyle branched
or unbranched, bearing the gonophores in clusters. Gonophores without radial
canals or marginal tentacles, oval to spherical, with three or four rounded
tubercles at distal end. Eggs developing into actinulae in situ.

Actinula at liberation with no oral tentacles or with rudiments of 3-5,
with 6-13 long aboral tentacles with swollen tips. Oral tentacles not capitate on
settling. (From the literature, not observed in South Africa.)

Distribution. Cosmopolitan.

Distribution in South Africa. Two records only, one from a ship’s hull in Table
Bay and another from the Agulhas Bank in 126 m. 33/18 (h), 35/20 (d)

Tubularia warreni Ewer, 1953
Frontispiece; Figs 15A—G

Tubularia warreni Ewer, 1953: 351, figs 1-4. Millard, 1959a: 299. Millard, 19595: 240. Millard,
1966a: 435.

?Tubularia sertularellae Stechow 19236: 97. Stechow 1925a: 406.

Diagnosis. Hydrorhiza a matted reticulum giving rise to clusters of unbranched
stems 50-100 mm in length, each bearing a single terminal hydranth. Perisarc

36 ANNALS OF THE SOUTH AFRICAN MUSEUM .

F-J

IR, 115).

Tubularia warreni. A, colony; B, hydranth with female blastostyles; C, newly settled hydranth
with capitate oral tentacles; D, actinula; E, nematocysts, from left to right a desmoneme,
stenotele, heterotrichous anisorhiza, basitrichous isorhiza; F, female gonophore with
crests and protruding spadix; G, male gonophore.

Tubularia larynx. H, female gonophore with tubercles; J, male gonophore.

Scale: A in cm, B in mm, E in pm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 37

firm, smooth for the most part but with scattered groups of 3—7 annulations,
becoming very thin distally where it terminates in a groove round a dilation
of the coenosarc just below the hydranth. Cavity of coenosarc divided longi-
tudinally by two or more endodermal ridges which may contain canals.
Hydranth with up to 31 long aboral tentacles (5 mm or more) and up to 27
shorter oral tentacles (1 mm or more).

Blastostyles arising just above aboral tentacles in two or three closely alter-
nating verticils, 6-12 in each, the oldest ones oral and the youngest aboral,
male and female on separate hydranths. Each blastostyle with a slender axis,
sometimes with a few lateral branches, bearing the gonophores singly or in
clusters. Gonophores without radial canals or marginal tentacles. Male oval
to spherical, normally smooth. Female oval to spherical, with eight laterally
compressed distal crests, containing one or two eggs which develop into actinulae
in situ.

Actinula at liberation normally with eight aboral tentacles and rudiments
of four oral tentacles. Oral tentacles capitate in newly settled hydranth.

Nematocysts of four types:

(i) Desmonemes, 4,2 x 2,4 — 5,4 x 4,2 uw. Capsule oval, discharged thread

with three coils. Numerous.

(ii) Stenoteles, 4,8 x 4,2 — 10,8 x 9,6 u. Capsule oval, butt about two-thirds
length of capsule. Numerous.

(iii) Heterotrichous anisorhizas, 7,8 x 7,2 — 9,6 x 9,6 u. Capsule spherical or
almost so. Thread coiled horizontally when undischarged, armed with spiral
bands of short spines. Rare.*

(iv) Basitrichous isorhizas, 7,8 x 2,4 — 9,0 x 3,0 u. Capsule elongate-oval,
thread coiled longitudinally when undischarged, armed with short spines for
the first part of its length. Rare.

Colour, endoderm of hydranth and spadix of gonophore deep red, ten-
tacles transparent. General impression of living colonies orangy-red.

Variation. The longitudinal endodermal ridges in the stem vary in number from
two to five (though usually two or three) and also in strength. Thus they may
be very low indeed, or they may be high enough to meet in the centre when they
may contain canals.

The oral tentacles of the hydranth are in one verticil in the extended state
but on contraction alternate tentacles get pushed inwards, giving the impression
of two verticils.

The male gonophores, though usually quite smooth, may occasionally
bear four or five rudimentary conical processes at the distal end. In the female
gonophores the distal processes vary in size and may rarely be absent. One or
more may be swollen and distended. The spent female gonophores are elongated-
oval or cylindrical. The spadix of the gonophore usually protrudes through the
aperture in the female, and occasionally in the male.

* This classification is from Ewer (1953). I was not able to verify personally the fact that the
thread tapers.

38 ANNALS OF THE SOUTH AFRICAN MUSEUM

The number of tentacles in the newly released actinula varies from 5 to 12
aboral and up to 6 oral.

Observations on living material. This is one of the hardier species of hydroids,
growing abundantly in dock areas in spite of severe pollution. In the laboratory
thousands of actinulae may be released and become established on the walls
of the tank. The living hydranth readily accepts brine-shrimp larvae which are
stung by the aboral tentacles and transferred to the mouth. The pendulous
blastostyles when at rest hand down between the tentacles to a length of about
10 mm but perform rhythmical contractions, sweeping upwards towards the
mouth.

The newly released actinula rests with the mouth directed upward and the
aboral tentacles held alternately elevated and depressed, the downward-directed
ones supporting it on the substratum. It does not swim but performs slow
exploratory crawling movements. At this stage the slender aboral tentacles are
slightly swollen at the tips and the oral tentacles mere lobes. By the time settling
occurs the aboral part of the body has lengthened to form a short stem covered
with perisarc and the oral tentacles are distinctly capitate and about 0,1 mm in
length. Young hydranths of 2,5 mm have about 12 aboral tentacles and 6
capitate oral tentacles. The capitulum of the oral tentacles is densely covered
with nematocysts. The aboral tentacles have nematocysts scattered along both
oral and aboral surfaces, but the aboral ones are more numerous.

Distribution. Endemic to South Africa. Type locality: Durban harbour.

Distribution in South Africa. Langebaan to Durban, common in dock areas on
pylons and on ships’ hulls. 33/18 (1, h), 34/18 (h), 34/22 (1), 34/23 (h), 29/31 (h)

Doubtful species
Tubularia crocea (L. Agassiz, 1862)

Parypha crocea L. Agassiz, 1862: 249, pls 23—23a.
Tubularia crocea: Brinckmann-Voss, 1970: 28, figs 30-34.

Remarks. Broch (1914) has reported this species from Liideritz Bay in South West
Africa, but the specimens were young and no description was given. The material is
probably referable to T. warreni.

T. crocea differs from T. warreni in details of nematocysts, blastostyles and
actinula.

Genus Zyzzyzus Stechow, 1921

Diagnosis. Hydranths solitary, with rooting hydrorhizal processes. Hydro-
caulus with soft perisarc. Gonophores in the form of fixed sporosacs.

Type species: Tubularia solitaria Warren, 1906a.

One species only from South Africa.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA

my 4
=7s

oa
cD

as ES,
Ge
YEN

mS
at

iN
<

Fig. 16.

Zyzzyzus solitarius. A, hydranth growing in sponge and showing rooting structures; B, mature
hydranth with gonophores and escaping actinulae.

Halocordyle disticha. C, stem; D, part of stem and hydrocladia; E, hydranth with gonophores;
F, gonophore; G, large stenotele.

Scale: C in cm, G in pm, the rest in mm/10.

39

40 ANNALS OF THE SOUTH AFRICAN MUSEUM

Zyzzyzus solitarius (Warren, 1906)
Fig. 1}6A—B
Tubularia solitaria Warren, 1906b: 83, pls 10-11.

Diagnosis. Hydranths growing in sponges, reaching 13 mm in maximum total
length, and embedded for about half this length. Hydrorhiza and hydrocaulus
not clearly demarcated externally, covered with smooth, soft perisarc which
terminates in a circular groove below hydranth. Hydrorhiza forming slender
supporting ‘rootlets’ and fleshy storage ‘tubers’. Coenosarc of stem with about
16 longitudinal endodermal canals contained within the normal reticular endo-
derm and communicating distally with the gastral cavity of the hydranth.
Hydranth with 15-34 aboral tentacles and 16-21 oral tentacles.

Blastostyles arising just above aboral tentacles, each bearing a cluster of
3-5 gonophores; male and female on same hydranth but on separate blasto-
styles. Gonophores cryptomedusoid, with a subumbrellar cavity opening to
exterior, but no marginal tentacles or radial canals; female containing many
eggs, of which one or two develop into actinulae. Actinula with 9-12 aboral
tentacles.

Colour: hydranth body and gonophores rose-red, hydrocaulus and tentacles
translucent white.

Nematocysts of at least three types:

(i) Large, oval capsules (?stenoteles). 7,2 x 5,9 — 12,1 x 11,6 pu.
(ii) Desmonemes. Small oval capsules. 4,5 x 3,6 — 6,3 x 3,6 pu.
(iii) Bean-shaped capsules (?basitrichous isorhizas). 8,1 x 3,6 — 9,0 x 3,6 u.

Distribution outside South Africa. Cape Verde Islands, Trinidad.

Distribution in South Africa. Saldanha Bay to Mocambique, littoral. Never
common. Type locality: Natal. 33/18 (1), 34/18 (1), 33/27 (1), 30/30 (1), 29/31
(1525/32; 21/35

Family Halocordylidae

Syn. Pennaridae.

Diagnosis. Upright, branching colonies with firm perisarc. Stem pinnate,
bearing alternate hydrocladia. Hydrocladia bearing ramules on upper surface
only. Hydranths borne on the summits of the stem, hydrocladia and ramules.
Hydranth with an aboral whorl of long filiform tentacles and an oral set of
capitate tentacles of which some or all form a whorl around the mouth. Gono-
phores borne on the hydranth above the aboral tentacles.

Introduction. This is one of the few athecate families with an upright stem and a
regular scheme of branching. The arrangement of the side-branches, which arise
alternately and bear the hydranths on short ramules on one surface only, is
similar to that found in the pinnate Plumulariidae, and the same term is used for
them, namely HYDROCLADIA. Firm perisarc clothes the stem and all branches;
it is usually divided into internodes, and annulated in certain areas, particularly

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 4]

in the neighbourhood of the nodes. It terminates in a groove round the base of
each hydranth.

The hydranth is comparatively large and flask-shaped, very similar in
general structure and appearance to that of the Corymorphidae and Tubula-
riidae. Here also there is an aboral whorl of long filiform tentacles, but the oral
tentacles are capitate and in most cases scattered over the whole of the oral
region.

The gonophores are in the form of eumedusae, with four permanently
stunted marginal tentacles and four radial canals. They may or may not have a
short free-swimming existence, and this has in the past been used erroneously
to separate species.

Mammen (1963) described the release of actively pulsating medusoids in
Halocordyle disticha, and these settled on the bottom within a few hours. For
the same species Brinckmann-Voss (1970) stated “The medusae may shed their
sexual products while still attached to the hydranths or they may break free;
they do not swim but sink immediately to the bottom. Liberated and non-
liberated medusae occur on the same colony.’ Since there is no mouth, the
medusae cannot feed and have a limited life.

One genus only.

Genus Halocordyle Allman, 1872
Syn. Pennaria Goldfuss, 1820, non Oken, 1815.
Diagnosis. As for family.

Type species: Globiceps tiarella Ayres, 1854.
One species only in South Africa.

Halocordyle disticha (Goldfuss, 1820)
Fig. 16C-—G

Pennaria disticha Goldfuss, 1820: 89. Brinckmann-Voss, 1970: 40, figs 43-50.
Pennaria australis Bale, 1884: 45.
Halocordyle cooperi Warren, 1906a: 73, pl. 9. Warren, 19076: 209.
Pennaria australis var. cooperi: Warren, 1908: 282.
Pennaria disticha var. australis: Millard, 1959a: 300.
Halocordyle pennaria var. australis: Mammen, 1963: 54, figs 22-24.
Diagnosis. Stem unfascicled, reaching a maximum height of 139 mm, divided
by straight nodes into regular internodes, each bearing a hydrocladium near
distal end, annulated at base and above each node. Hydrocladia alternate, the
two rows in one plane, gently curved, those near the centre of the stem longer
than those at the base and distal end, the longer ones divided by straight nodes
into internodes, each internode bearing a ramule on the upper surface, annulated
at base and above each node. Ramules unsegmented, annulated at least in basal
region.

Hydranths borne on summits of stem, hydrocladia and ramules, with an
aboral whorl of 8-15 long filiform tentacles and an oral set of 8-17 short capitate

42 ANNALS OF THE SOUTH AFRICAN MUSEUM

tentacles wnich may be irregularly scattered or have a roughly verticillate
arrangement.

Gonophores borne on hydranth between the two sets of tentacles, develop-
ing into eumedusae, which may have a short free-living life, male and female on
separate colonies. Gonophores deeper than wide, with four radial canals, four
rudimentary marginal tentacles, a long hypostome and no ocelli.

Nematocysts of at least three kinds:

(i) Stenoteles, large ones (to 47 x 25 ») on capitate tentacles, and small ones
(8 x 5 — 14 x 10 z) on all tentacles, abundant.

(ii) Desmonemes, 6,5 x 5,5 », on all tentacles.

(iii) ?Microbasic mastigophores, 11,5 x 5 », on all tentacles, scarce.

Colour (preserved): stem dark-brown to black, becoming lighter towards
the extremities which are transparent, hydranths reddish, gonophores with red-
dish longitudinal stripes.

Variation. The amount of annulation on the stem and branches has been shown
by many authors to be variable, so that it is probably no longer correct to retain
var. australis (Bale 1884), which is distinguished mainly by the paucity of
annulations on the hydranth-bearing ramules.

The stem may have as many as 20 annulations at the base and up to 11
above each node, though more commonly four or five. The hydrocladia may
have true annulations or-spiral ridges. The ramules usually have one or two
rings at the base, but there may be a large number, and there may also be a
group at the distal end. Additional groups of annulations may occur anywhere
on the stem or its branches. The South African material can be assigned to var.
australis if this should be retained.

Distribution. Circumglobal in tropical and subtropical waters.

Distribution in South Africa. East coast, from just south of Durban to Mocam-
bique, lower littoral region to 3 m, and on ships’ hulls. 30/30 (1), 29/31 (1, h),
27/32 CO) 26/32 (1); 24135 (S)a23/ 31a

Family Myriothelidae
Diagnosis. Large solitary hydranths attached to substratum by special perisarcal
anchoring structures. Tentacles all capitate, numerous, scattered. Gonophores
borne either on special blastostyles or direct on hydranth body.

Introduction. The Myriothelidae is a family of solitary hydranths in which some
species have attained great size with accompanying elaborations of internal
structure, a process paralleling that in the Corymorphidae. Thus, the endoderm
is thrown into villi projecting into the coelenteron and the mesogloeal layer is
thickened and bears lamellae on its outer surface supporting the longitudinal
muscles (Fig. 18E). These features occur to a greater or lesser extent in the larger
species and culminate in the giant Myriothela penola which can reach a length
of 850 mm and has about 330 000 body tentacles (Manton 1940).

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 43

The body is normally cylindrical but can perform active contractile move-
ments involving changes of shape. The distal and major part is thickly covered
with tentacles, while the base is permanently attached to the substratum. A
perisarcal sheath covers the basal region in Arum and Monocoryne, but in
Myriothela the body is entirely naked, and perisarc is limited to the adhesive
structures. The latter are processes of the body and may be (1) tubular with
sucker-like distal ends, e.g. Arum cocksi, (2) tentacle-like, e.g. Myriothela
phrygia and M. capensis, or (3) root-like, e.g. Monocoryne gigantea. In the
first and second types the processes are fastened to the substratum by chitinoid
ATTACHMENT DISCS which are in continuity with the mesogloea, and in Myrio-
thela capensis the underlying ectoderm disappears. If torn away these discs can-
not be reattached, although new adhesive structures may be formed (Manton
1941).

The tentacles are always capitate; single and scattered in Arum and Myrio-
thela, but attached to one another in groups of three or four in Monocoryne.
Each tentacle contains a lumen separated from that of the main body cavity,
and the mesogloea often expands in the capitulum to form a thick apical pad
(Fig. 18C). In Myriothela new tentacles are continually formed at the oral end,
while the basal ones are progressively reduced and absorbed, and this is probably
also the case in the other genera.

Reproduction, so far as is known, is always by means of fixed sporosacs,
and the eggs, at any rate in Myriothela, develop into actinulae. The gonophores
may be borne directly on the body (Monocoryne) or may arise from special
blastostyles (Myriothela and Arum). The blastostyles arise from a budding zone
between the attachment processes and the lowest body tentacles; they may be
branched or unbranched and with or without capitate tentacles similar to those
of the body.

KEY TO GENERA

[Genera not represented in South Africa are vracketed]

1. Tentacles grouped .. “ee ae a ad ae Bs .. Monocoryne p. 43
Tentacles single .. ape a, ae ae Pe ce ee re a Z

2. Proximal end of hydranth naked; perisarc present only on tips of anchoring fila-
ments tos LA Ws a ay fs as an .. Myriothela p. 45
— Proximal end of hydranth and anchoring filaments sheathed in perisarc [Arum]

Genus Monocoryne Broch, 1909
Syn. Symplectanea Fraser, 1941.

Diagnosis. Proximal end of hydranth and anchoring filaments surrounded by a
perisarcal sheath. Distal end of hydranth bearing tentacles attached to one
another in groups. No blastostyles; gonophores borne on body, in the form of
fixed sporosacs.

Type species: Coryne gigantea Bonnevie, 1898.
One species only from South Africa.

44 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 17.

Monocoryne minor. A, complete individual; B, a typical group of four tentacles.
Myriothela tentaculata. C, nematocysts, from left to right: large desmoneme, small desmoneme,
heteroneme, atrichous isorhiza, stenotele.
Myriothela capensis. D, nematocysts, from left to right: undischarged and discharged large
desmoneme, small desmoneme, heteroneme, ?atrichous isorhiza, stenotele, ?7haploneme.
Scale: C and D in pm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 45

Monocoryne minor Millard, 1966
Fig. 17A-B
Monocoryne minor Millard, 1966a: 435, fig. 1.
Diagnosis. Hydranth cylindrical, about 5 mm in length. Basal part (one-quarter)
sheathed in transparent perisarc and giving rise to anchoring filaments. Distal
part (three-quarters) naked, bearing about 110 capitate tentacles usually in
groups of two, three or four united at the base; usually one tentacle of a group
longer than the others.
Gonophores (?male) scattered on distal part of body, pear-shaped, reaching
a diameter of 0,3 mm.
Nematocysts of at least three kinds:
(i) Desmonemes, 9,0 x 6,3 — 13,5 x 10,8 ». Capsule oval, thread in about two
coils. Abundant.
(ii) Stenoteles, 15,3 x 13,0 — 18,0 x 15,3 ». Capsule oval, butt about half
length of capsule. Fairly common.

(i111) Undetermined heteronemes, 16,2 <x 6,3 — 18,9 x 7,6 ». Capsule elongated,
butt about 2 length of capsule. Rare.

Distribution. Endemic to South Africa.

Distribution in South Africa. Type locality and only record: Agulhas Bank in
77 m. 34/25 (s)

Genus Myriothela M. Sars, 1851
Syn. Candelabrum de Blainville, 1830 (nomen oblitum).
Diagnosis. Proximal end of hydranth without perisarc, bearing adhesive pro-
cesses with perisarc only at the tips. Distal end of hydranth bearing separate,
scattered tentacles. Gonophores in the form of fixed sporosacs, borne on blasto-
styles arising below the area of body tentacles. An actinula stage in the life
history.

Type species: Lucernaria phrygia Fabricius, 1780.

KEY TO SPECIES

1. Blastostyles about 1,5 mm long, with about 5 capitate tentacles at distal end M. capensis
— Blastostyles long and tendril-like, up to 20 mm, with over 25 scattered capitate
tentacles .. Ne ue fs vi he Ae ae oe M. tentaculata

Myriothela capensis Manton, 1940
Fig. 17D, 18A, F-G

Mpyriothela capensis Manton, 1940: 276, figs 7, 8b, 9, pl. 1 (figs 12-13), pl. 3 (fig. 27). Millard,
1966a: 437.

Diagnosis. Hydranth cylindrical, naked, reaching 25 mm in length, usually
attached to weed. Basal part of body (one-tenth) bearing 20-30 adhesive pro-
cesses capped by chitinoid discs. Distal part (nine-tenths) bearing 400-600
densely packed capitate tentacles.

46 ANNALS OF THE SOUTH AFRICAN MUSEUM

Blastostyles arising from basal part of body (above adhesive processes)
in a single whorl of about 20, unbranched, reaching 4 mm in length, bearing up
to nine gonophores in proximal region, the oldest distal, and 4~7 capitate
tentacles in distal region, of which some may be adhesive. Male and female on
separate hydranths. Female gonophore sessile, spherical, reaching 0,9 mm in
diameter, releasing up to three actinulae.

Nematocysts of possibly five types:

(i) Desmonemes, 7,8 x 5,4 — 16,8 x 12,6 ». Capsule oval, thread in one to

three coils.

(ii) Stenoteles, 9,9 x 8,1 — 11,4 x 7,2 uw. Capsule oval, butt just over half

length of capsule.

(iii) Undetermined heteronemes, 11,7 x 3,6 — 19,2 x 6,0 uw. Capsule elongated,

butt almost entire length of capsule.

(iv) Undetermined haplonemes, 10,8 < 9,9 ». Capsule wide-oval.

(v) ?Atrichous isorhizas, 18,0 x 6,0 ». Capsule elongated, no butt, thread

coiled mainly in longitudinal plane. Not always present.

Colour variable. In one individual the capitula of most of the body tentacles
were purple-brown, with amongst them white tentacles fewer in number and
in roughly longitudinal bands; the gonophores had about seven longitudinal
purple-brown stripes and two apical rings; the rest of the body was creamy white.
In another individual the capitula of the body tentacles and tips of the gono-
phores were bright magenta, fading to pink on the stalks of the tentacles and
white on the base of the body. A third individual was uniformly pink.

Variation. Various algae are used as hosts, including Ecklonia maxima (Osbeck)
and Codium sp. It has also been found attached to a crustacean appendage and
inside an empty limpet shell.

Distribution. Endemic to South Africa.

Distribution in South Africa. Liideritz Bay to East London, littoral to 27 m.
Type locality: Aquarium rocks, East London. 26/15 (1), 32/18 (s), 34/18 C., s),
35) 27a (b)

Myriothela tentaculata Millard, 1966
Fig. 17C, 18B-E
Mpyriothela tentaculata Millard, 1966a: 437, fig. 2.
Diagnosis. Hydranth cylindrical, naked, reaching 31 mm in length, attached to
encrusting polyzoans. Basal part of body (two-fifths) bearing about nine short,
adhesive processes capped by chitinoid discs. Distal part (three-fifths) bearing
densely packed capitate tentacles.

Blastostyles arising from basal part of body (above adhesive processes)
in a single whorl of 17; unbranched, long and tapering and generally coiled,
reaching 20 mm, bearing 4-8 gonophores in the proximal region, the oldest
distal, and over 25 capitate tentacles on distal region and scattered amongst the
gonophores. Tentacles not adhesive and resembling boot-buttons. Male gono-

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 47

GOR
Oe Co Oo
<COYC ie)

Be

?,

ro

Fig. 18.

Myriothela capensis. A, complete individual extended; F, male blastostyle, contracted;
G, female blastostyle, extended.

Myriothela tentaculata. B, individual attached to polyzoan; C, |.s. body tentacle; D, ls.
blastostyle tentacle; E, t.s. body wall including origins of two tentacles on lower side of
diagram.

Abbreviations: e: ectoderm; m: mesogloea; ml: mesogloeal lamella; mp: apical pad of
mesogloea; m: nematocysts; v: endodermal villi.

Scale: A, B, F and G in mm, C-E in mm/10.

48 ANNALS OF THE SOUTH AFRICAN MUSEUM

phores spherical, reaching 2 mm in diameter, pedicellate. Female gonophores
unknown.
Nematocysts of four types:
(i) Desmonemes, 10,2 x 7,2 — 18,0 x 14,4 uw. Capsule oval, thread in two or
three coils.
(ii) Stenoteles, 14,4 x 10,8 ». Capsule oval, butt over half length of capsule.
(iii) Undetermined heteronemes, 44,1 x 8,1 — 45,9 x 8,1 ». Capsule banana-
shaped, butt almost entire length of capsule.
(iv) Atrichous isorhizas, 15,3 x 4,0 — 19,8 x 7,2 u. Capsule elongate-oval.

Variation. The tentacles are well developed at the distal end of the body, with
large capitula and long stalks, but become progressively reduced as they
approach the blastostyle region.

Distribution. Endemic to South Africa.

Distribution in South Africa. Type locality and only record: off Slangkop on the
west coast of the Cape Peninsula, in 43 m. 34/18 (s)

Family Corynidae

Diagnosis. Colonial hydroids with erect stems and firm perisarc. Hydranth
with conical hypostome, with capitate tentacles only or with short filiform ten-
tacles below the capitate ones. Gonophores borne on or below hydranth body,
in the form of fixed sporosacs or free medusae. Medusa, when present, with
simple circular mouth, four radial canals, gonads completely surrounding
stomach, 2-4 hollow marginal tentacles and ocelli.

Introduction. In this family the tentacles of the hydranth are very varied in
structure and arrangement so that allocation into genera is difficult. All possess
capitate tentacles, and these may be arranged in definite whorls located on
definite regions of the body (two well-separated whorls in Bicorona and Dicy-
clocoryne, one aboral whorl in Sphaerocoryne, one oral whorl in some species
of Dipurena) or they may be spread over the whole of the body. In the latter
case there are usually three or four tentacles grouped around the mouth and
the rest of the tentacles may show an indistinct whorling, but for ease of
terminology they are here referred to as ‘scattered’.

In addition to the capitate tentacles some species possess an additional
whorl of vestigial filiform tentacles round the base of the hydranth. The presence
or absence of filiform tentacles has in the past been used as a diagnostic
generic character, but it has been shown that they may occur in some hydranths
of a colony and not in others, or that they may occur in primary and secondary
hydranths but not in tertiary ones (Rees 1957; Brinckmann-Voss 1970). I have,
therefore, followed Brinckmann-Voss in uniting Stauridiosarsia with Sarsia,
and Staurocoryne with Coryne. Rees (1957) suggests that there has been a general
trend amongst the Corynidae towards the loss of filiform tentacles and the addi-
tion of whorls of short capitate tentacles.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 49

Free-swimming medusae are formed in Dicyclocoryne, Dipurena, Sarsia
and Sphaerocoryne. In some cases differentiation of the medusa generation
appears to have advanced further than the hydranth generation. For instance
the hydranths of Dipurena and Sarsia are almost identical, but their medusae
are distinct, and in this case I prefer to retain the two genera and have not
united them as was done by Brinckmann-Voss. Furthermore the hydranth of
Dipurena reesi is very similar to that of Cladonema radiatum whose medusa
belongs to a completely different family.

An actinula larva occurs in the genus Actigia Stechow, 1921, a genus which
can probably be included in Coryne, and actinula-like buds have been shown by
Rees (1957) to occur in Sarsia tubulosa.

KEY TO GENERA
[Genera in which the hydranth generation is unknown in South Africa are bracketed]

1. Capitate tentacles limited to one whorl or two closely alternating whorls near base
of hydranth ae Ay aie a ne 255 as ae p. 5
— Capitate tentacles not as above a

2. Capitate tentacles in two distinct and widely separated whorls, one oral oa one

aboral ae 3
— Capitate tentacles scattered or indistinctly whorled over whole body, or limited to

an oral whorl ce i a ate oe ae aie ae a 4
3. Producing fixed sporosacs ae f A on os : Bicorona p. 49
— Producing free medusae .. ay ne ae x Be Weal
4. Producing fixed sporosacs a oe mn ate es - Coryne p. 51
— Producing free medusae ; : oe oe 5
5. Medusa with undivided gonad .. ve Be Sarsia p. 52
— Medusa with gonad in two or more rings round qomads ges .. [Dipurena]

Genus Bicorona Millard, 1966

Diagnosis. Colonies with erect, branched stems. Mature hydranth with two
widely separated whorls of capitate tentacles, one oral and one aboral. No
filiform tentacles. Gonophores in the form of fixed sporosacs borne on the body
of the hydranth.

Type species: Bicorona elegans Millard, 1966.
One species only.

Bicorona elegans Millard, 1966
Frontispiece; Fig. 19A—E
Bicorona elegans Millard, 1966a: 441, fig. 3.
Diagnosis. Stem unfascicled, reaching 58 mm in height, giving rise to alternate
branches which may rebranch in a similar manner. Perisarc closely annulated
throughout except for a smooth area on the origin of each branch, terminating
as a gelatinous layer over the base of each hydranth.
Hydranths borne on summits of stem and branches, 1-2 mm in length,
with an aboral whorl of 10-21 capitate tentacles and an oral whorl of 4-7

50 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 19.

Bicorona elegans. A, stems; B, mature hydranth bearing gonophores; C and D, young
hydranths; E, nematocysts: large and small stenoteles.
Coryne ?pusilla. F and G, stems, G producing regeneration bodies.
Scale: A in cm, E in mm/100, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 51

shorter capitate tentacles. Aboral tentacles held alternately elevated and
depressed in life, oral tentacles held erect. Aboral tentacles of young hydranth
in three alternating verticils.

Gonophores borne on about seven short blastostyles arising immediately
above aboral tentacles, 2-4 on each, oval to spherical, in the form of fixed
sporosacs, male and female on separate colonies. Female gonophore reaching
0,4 mm in diameter, containing 29-84 small eggs. Male gonophore reaching 0,6
mm in diameter.

Nematocysts: stenoteles, 13,5 x 7,2 — 26,1 x 17,1 ». Capsule oval.

Colour: colony a rich plum-colour, shading to dark-red on the stems and
cose-pink on the hydranth tentacles.

Distribution. Endemic to South Africa.

Distribution in South Africa. Saldanha Bay, west coast of Cape Peninsula, East
London, littoral. Type locality: Saldanha Bay. 33/18 (1), 34/18 (1), 33/27 (1)

Genus Coryne Gaertner, 1774

Syn. Staurocoryne Rotch, 1872.
Syncoryna Ehrenberg, 1834.

Diagnosis. Hydranth with capitate tentacles scattered, or in rough whorls,

over whole of body, and sometimes with a whorl of short filiform tentacles
below them. Gonophores in the form of fixed sporosacs borne on the hydranth.

Type species: Coryne pusilla Gaertner, 1774.
One species only from South Africa.

Coryne pusilla Gaertner, 1774
Fig. 19F-G

Coryne pusilla Gaertner, 1774: 40, pl. 4 (fig. 8). Hincks, 1868: 39, pl. 7 (fig. 1). Warren, 1908:

289, fig. 4. Brinckmann-Voss, 1970: 51, fig. 57. ?Millard & Bouillon, 1974: 13, fig. 1B, C.
Diagnosis. Stem unfascicled, reaching about 13 mm in height, branching irreg-
ularly. Perisarc strongly annulated at least in distal part, annulations often
becoming irregular and indistinct in lower part, terminating on base of hydranth
but not expanded.

Hydranth spindle-shaped, about 1,3 mm in length, with 20-30 scattered
capitate tentacles.

Gonophores borne on hydranth amongst the tentacles, in the form of fixed
sporosacs.

Nematocysts: stenoteles, 8,4 x 4,8 — 16,7 x 11,2 np.

Variation. A dwarf form of Coryne also occurs, which reaches about half the
size. The hydranth has 10-19 tentacles and is 0,4-0,8 mm in length. Since

32 ANNALS OF THE SOUTH AFRICAN MUSEUM

gonophores have not been recorded for this form it is not certain that it is the
same species. Such records are indicated with a query below.

The dwarf form may produce ‘regeneration bodies’, which are budded off
from the tips of branches. In appearance they resemble planula larvae; they
represent a form of asexual reproduction.

Distribution outside South Africa. Common in the North Atlantic from the
Arctic to the Mediterranean. Scattered records, some of them doubtful, from
the Indian Ocean (Madagascar and Kerguelen) and the Pacific (Japan).

Distribution in South Africa. Natal and ?Inhaca, littoral. 30/30 (1), 226/32 (1)

Genus Sarsia Lesson, 1843
Syn. Stauridiosarsia Mayer, 1910.

Diagnosis. Hydranth with capitate tentacles scattered, or in rough whorls,
over whole of body, and sometimes with a whorl of short filiform tentacles
below them. Gonophores borne on body of hydranth, developing into medusae.
Medusa with gonad forming a continuous ring around stomach.

Type species: Oceania tubulosa M. Sars, 1835.
One species only from South Africa.

Sarsia eximia (Allman, 1859)

Fig. 20A-D

Coryne eximia Allman, 1859: 141.

Syncoryne eximia: Allman, 1872: 282, pl. 5. Hincks, 1868: 50, pl. 9 (fig. 2).

Sarsia eximia: Russell, 1938: 150, figs 8-12. Russell, 1953: 50, figs 17A, 18A—B, pl. 2 (fig. 3).
Millard, 1959b: 241. Kramp, 1961: 27. Millard, 1966a: 444.

Diagnosis. Stem erect, reaching a height of 53 mm, unfascicled, branching pro-
fusely and irregularly, though final branches with a tendency to unilateral
arrangement. Perisarc mainly smooth but annulated on base of stem, on origin of
branches and sometimes for entire length on smallest branches; terminating as
a very delicate layer below the first tentacles of the hydranth.

Hydranth tubular, reaching 1,7 mm in height, with 15—26 scattered capitate
tentacles, four or five of which form a verticil round the mouth; bearing
medusa-buds amongst the tentacles.

Medusa at liberation reaching 1 mm in height and diameter, with thin
jelly, four moniliform marginal tentacles, four black ocelli on the marginal
bulbs and scattered nematocysts on the bell. Mature medusa (not recorded from
South Africa) reaching 3-4 mm in height and 2 mm in diameter, with four per-
radial marginal tentacles and four ocelli. Hypostome not extending beyond mar-
gin of bell, female with a few large eggs.

Nematocysts of hydranth: stenoteles of variable size, 5,4 x 4,0 — 17,1 x

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 53

i
i
¥.
i

Fig. 20.

Sarsia eximia. A, hydranth with medusa-buds; B, colony; C, newly liberated medusa;
D, nematocysts, from left to right a stenotele from the hydranth, an undischarged and
discharged desmoneme from the medusa.

Sphaerocoryne bedoti. E, hydranth with medusa-buds, redrawn from Warren (1908, as
Clavatella multitentaculata).

Asyncoryne ryniensis. F, hydranth with medusa-buds, redrawn from Warren (1908).

Scale: B in mm, D in pm, the rest in mm/10.

54 ANNALS OF THE SOUTH AFRICAN MUSEUM

12,6 ». Butt length approximately equal to capsule length and bearing three
Jarge spines and three spiral rows of small spines on its distal half.
Nematocysts of medusa of two types:

(i) Stenoteles, 8,1 x 5,4 — 10,4 x 8,1 ». Structure as in hydranth.
(ii) Desmonemes, 6,3 x 3,2 — 9,0 x 4,5 pu.

Observations on living material. This species releases abundant medusae during
the summer months of December to February and even as late as April; these
live well in the laboratory during their early stages, but have not been reared to
maturity in this country. Nor have fully mature medusae been reported from the
plankton. Newly hatched medusae have alternate swimming and resting phases.
They swim with rhythmical contractions of the bell and velum, holding the
tentacles in a contracted state. During resting the bell relaxes and the tentacles
extend to about double the height of the bell, trailing in the water in the ‘fish-
ing’ position. The tentacles bear about 20 nematocyst batteries, of which the
terminal one is the largest. The largest size reached in the laboratory is 2,8 x
2,7 mm, with no gonads visible.

Colour: hydranth orange-pink, medusa transparent with reddish-brown
marginal bulbs and hypostome.

Distribution outside South Africa. North Atlantic from America to Europe and
from Iceland to France, Mediterranean, west coast of North America, New
Zealand. Medusae also from Brazil, Valparaiso and the N.W. Pacific. Type
locality: Great Britain.

Distribution in South Africa. Common in the environs of Cape Town, on ships’
hulls, pylons and floating objects, and also on rocky shores. Certainly present
from Liideritz Bay in South West Africa to Llandudno on the west coast of the
Cape Peninsula, with doubtful (infertile) records from False Bay, the south coast
and Inhaca in Mocambique. 26/15 (1), 33/18 (1, h), 34/18 (1), 234/22 (1), 234/23
(1), 226/32 (1)

Genus Sphaerocoryne Pictet, 1893

Diagnosis. Hydranth with capitate tentacles in one whorl or two closely alter-
nating whorls round lower part of body. No filiform tentacles. Gonophores
borne on body of hydranth, developing into medusae. Adult medusa unknown.

Type species: Sphaerocoryne bedoti Pictet, 1893.
One species only in South Africa.

Sphaerocoryne bedoti Pictet, 1893

Fig. 20E

Sphaerocoryne bedoti Pictet, 1893: 10, pl. 1 (figs 5-6). Mammen, 1963: 48, figs 16-18. Millard
& Bouillon, 1974: 13, fig. 1A.

Clavatella multitentaculata Warren 1908: 278, pl. 45 (figs 7-9).

Sphaerocoryne multitentaculata: Yamada & Konno 1973: 103, figs 1-3.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 55

Diagnosis. Hydrorhiza embedded in sponge, ramifying, giving rise to solitary
hydranths on long stems with a maximum total height of 13 mm. Pedicel with
smooth perisarc terminating just above a groove below hydranth, increasing
in diameter from base to distal end.

Hydranth pear-shaped, reaching a maximum height of 0,8 mm, with 15-35
solid capitate tentacles arranged in two closely alternating whorls on lower part
of body. No oral tentacles. Hypostome conical.

Gonophores borne in clusters on hydranth body immediately above ten-
tacles, in the form of medusa-buds.

Medusa (not recorded from South Africa) on liberation nearly spherical,
0,5-0,6 mm in diameter, with four marginal bulbs. On maturity with four
marginal tentacles bearing spirally arranged clusters .of nematocysts and four
abaxial ocelli; male nearly ovoid, reaching 3,5 mm in height and 3,0 mm in
diameter; female deeper, reaching 4,5 mm in height and 3,0 mm in diameter.
(From Yamada & Konno.)

Colour: chalky white round mouth, below this a band of lemon-yellow
and below this an irregular band of bright red just above the tentacles. (From
Warren.)

Nematocysts: stenoteles and desmonemes in polyp; stenoteles, desmo-
nemes and basitrichous haplonemes in medusa.

Distribution outside South Africa. India (type locality), Queensland, Madagascar,
Japan.

Distribution in South Africa. Natal and Mocgambique, intertidal. Rare. 30/30
(1), 21/35

Family Cladonemidae

Diagnosis. Hydranths colonial, arising directly from a creeping stolon, with or
without perisarc, with an oral whorl of capitate tentacles, with or without an
aboral whorl of short filiform tentacles. Gonophores borne on hydranth body,
producing free medusae. Medusa with simple, tubular mouth which may be
armed with nematocyst clusters; with a variable number of radial canals,
simple or branched. Marginal tentacles hollow, branched, one branch with
one or more adhesive discs. Ocelli present.

Introduction. This family includes the three genera Cladonema, Eleutheria and
Staurocladia. Most modern authors divide these genera between the two families
Cladonemidae (Cl/adonema) and Eleutheriidae (Eleutheria and Staurocladia),
but I have followed Naumov (1960) and Prévot (1959) in maintaining that both
hydranth and medusa generations have too many characters in common to merit
distinction at the familial level.

The hydranth is very simple and resembles some of the more primitive
Corynidae. The perisarc is poorly developed, if present, and the hydranth has

56 ANNALS OF THE SOUTH AFRICAN MUSEUM

an oral whorl of a few capitate tentacles and sometimes an aboral whorl of
short filiform tentacles as well.

The medusa generation, on the other hand, is highly evolved and specialized.
It has received more attention than usual in this monograph because the single
South African species (of Staurocladia) has a creeping habit and is commonly
encountered on weed in rock-pools and shallow bays. Eleutheria also has a
creeping medusa, but in Cladonema the medusa normally swims and only comes
to rest as a temporary measure.

Creeping is made possible by the presence of adhesive discs on the marginal
tentacles. The marginal tentacles, which are usually numerous, branch, several
times in Cladonema, only once in Eleutheria and Staurocladia. The oral branch
bears the adhesive discs and the aboral branch bears one or more clusters of
nematocysts resembling the capitula of capitate tentacles.

The mouth of the medusa is armed with nematocyst clusters resembling
capitate tentacles in Cladonema. This armature is normally absent in Eleutheria
and Staurocladia, but Ralph (1947) has found vestigial clusters in Staurocladia
vallentini in New Zealand. Eleutheria and Staurocladia possess a thickened ring
of nematocysts round the umbrella margin.

Asexual reproduction by the production of buds or vertical fission of the
medusa has been reported in several species.

The medusae may be dioecious or hermaphrodite. In Eleutheria the fer-
tilized eggs are retained in a brood-pouch, situated above the stomach, to the
planula stage.

KEY TO GENERA

[Genera not represented in South Africa are bracketed]

1. Marginal tentacles of medusa with several branches .. ae .. [Cladonema]
— Marginal tentacles of medusa bifurcating ; D
2. Hydranth with capitate tentacles only. Medusa sth Apenal branch of ‘ones
bearing one nematocyst cluster only .. .. [Eleutheria]
— Hydranth with capitate and filiform tentacles. Miedned ih aboral branch of ten-
tacle bearing more than one nematocyst cluster he By .. Staurocladia p. 56

Genus Staurocladia Hartlaub, 1917
Syn. Cnidonema Gilchrist, 1919.

Diagnosis. Hydranth with both filiform and capitate tentacles. Medusa of creep-
ing habit, without nematocyst armature on mouth, with thick ring of nemato-
cysts around margin, without brood-pouch; gonads well developed, either in
ectodermal pockets or completely surrounding stomach; sexes separate; with
six Or more radial canals; with numerous bifurcated marginal tentacles, the oral
branch with a terminal adhesive disc, the aboral branch with several clusters of
nematocysts.

Type species: Eleutheria vallentini Browne, 1902.
One species only from South Africa.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 57

Staurocladia vallentini (Browne, 1902)
Fig. 23D-G

Eleutheria vallentini Browne, 1902: 279.

Cnidonema capensis Gilchrist, 1919: 509, pl. 30. .

Staurocladia vallentini: Browne & Kramp, 1939: 274, pl. 14 (figs 3-4), pl. 15 (fig. 4), pl. 19
(fig. 2). Millard, 1966a: 444.

Cnidonema vallentini: Ralph, 1947: 414, fig. 1, pl. 35.

Diagnosis. Hydranth borne on a slender hydrocaulus arising direct from a
creeping hydrorhyza, minute, reaching 1,5 mm in length, slender at base and
increasing in diameter distally, with 3-4 capitate oral tentacles and 4—6 filiform
aboral tentacles. Hydrocaulus reaching 2 mm in length, covered with thin peri-
sarc. Medusa-buds borne at or slightly above level of aboral tentacles, with about
six bifurcated tentacles at liberation, the aboral branch with one nematocyst
cluster.

Mature medusa about twice as wide as deep, reaching 3,3 mm in diameter.
Marginal tentacles increasing in number with age and reaching about 40 in
large individuals, oral branch bearing a single terminal adhesive disc, aboral
branch bearing median, crescent-shaped clusters of nematocysts: one terminal,
2-4 abaxial and sometimes one adaxial. Radial canals six, unbranched. Stomach
with six pouches. Gonads above and around stomach, in six ectodermal pockets.
Asexual reproduction common in young medusae.

Nematocysts of two types:

i) Desmonemes, 9,6 x 4,2 pu.

(ii) Stenoteles, 10,8 <x 6,6 — 18,6 x 12,6 pu.

Colour: Hydranth transparent with reddish endoderm. Medusa mostly
transparent, with reddish-brown circular canal and stomach, dark brown to
black ocelli, and opaque, white radiating lines on upper surface.

Variation and remarks. The arrangement of the nematocyst clusters on the
aboral branch of the medusa tentacle is variable. They are, however, always
median in position, and there is always one terminal one. In most populations
all the remaining clusters are abaxial, but I have seen one population in which
they are alternately abaxial and adaxial as described by Gilchrist. Occasionally
there is a cluster on the abaxial side of the tentacle before the bifurcation.

When the medusa is at rest the adhesive discs are attached to the sub-
stratum and the aboral branches of the tentacles elevated. Creeping is accom-
plished by releasing and re-attaching the discs.

Distribution outside South Africa. Falkland Islands (type locality). Australasia.
?Bermuda.

Distribution in South Africa. Liideritz Bay to False Bay. Medusa locally com-
mon on weed at certain seasons, hydranth recorded only once. Hydranth:
34/18 (1). Medusa: 26/15 (1), 33/18 (1), 34/18 (1).

58 ANNALS OF THE SOUTH AFRICAN MUSEUM

Family Solanderiidae

Diagnosis. Upright, branching colonies with an internal skeleton of chitinous
trabeculae which may protrude through the surface as spines or hydrophores.
Hydranths all alike, cylindrical, with scattered capitate tentacles, of which four
or five usually form a whorl around the mouth. Gonophores, where known, in
the form of fixed sporosacs borne directly on coenosarc.

Introduction. The Solanderiidae is one of the few groups of hydroids to possess
an internal skeleton. This skeleton consists of an anastomosing meshwork of
chitinous TRABECULAE which rises from an incrusting base to form an erect and
elaborately branching stem. The entire colony is covered externally, and per-
meated internally, by living coenosarc, which bears the hydranths and gono-
phores on the surface. Though the skeleton is morphologically internal, it is
not ‘mesogloeal’, and has been shown by Vervoort (1966a) to be ectodermal in
origin and everywhere covered or lined by cellular ectoderm. The condition is
comparable with that in some Hydractiniidae (Hydractinia) and Zancleidae
(Rosalinda and Teissiera).

The hydranths are borne over the whole surface of the stem and branches
and are usually supported by bracket-like HYDROPHORES arising from the tra-
beculae of the skeleton and projecting through the superficial coenosarc. These
hydrophores may be scoop-shaped, bilobed, or double and with two lateral
triangular shields. Spiny or spatulate projections, the latter resembling abortive
hydrophores, may also occur in some species.

The highly extensile hydranths are very homogeneous and there is no
approach to polymorphism. The shortly stalked capitate tentacles are arranged
irregularly over the body, although a group of four or five usually forms a whorl
around the mouth.

The gonophores, where known, are borne directly on the coenosarc.
They are stalked eumedusoids without marginal tentacles, but sometimes with
radial canals. No free-swimming life has been observed. Colonies are dioecious,
though no differences in structure between male and female colonies have been
seen.

One genus only.

Genus Solanderia Duchassaing & Michelin, 1846

Syn. Ceratella Gray, 1868.

Dehitella Gray, 1868.

Dendrocoryne Inaba, 1892.

Spongiocladium Jaderholm, 1896.
Diagnosis. Colony erect and strongly branched, generally fan-shaped and with
the ramifications more or less in one plane, arising from a flattened base of
hydrorhizal fibres. Skeleton usually forming bracket-like hydrophores which
support the hydranths. Gonophores borne direct on the coenosarc.

Type species: Solanderia gracilis Duchassaing & Michelin, 1846.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 59

KEY TO SPECIES

(Doubtful species not included. For these see p. 61)
1. Hydrophores eae ben bilobed or double. ce. with about 15

tentacles ae bie S. procumbens
— Hydrophore always double: one half on act side of hydrant. Hydranth with up to
33 tentacless .. 2, vs Ae a ; re .. S&. minima

Solanderia minima (Hickson, 1903)
Fig. 21C-E
Ceratella minima Hickson, 1903: 113, pl. 13.
Solanderia minima: Vervoort, 1967: 25, fig. 2, pl. 3 (figs 3-4). Millard & Bouillon, 1973: 16,

fig. 2A-B, pl. 1.

Diagnosis. Colony fan-shaped, reaching 70 mm in height and 70 mm in spread,
branching in one plane. Main stem thick; round or irregular in section.
Hydranths and hydrophores borne irregularly on stem and branches, though
restricted to two opposite sides in certain areas. Small spines sometimes present
in older regions.

Hydrophore double, consisting of a pair of shields, one on each side of
hydranth. Shield broadly triangular with smoothly rounded apex, sometimes
very poorly developed and inconspicuous, usually not supported by ribs from
the trabeculae, seldom more than 0,1 mm in height. Hydranth with up to 29
tentacles.

Gonophores (not reported from South Africa) scattered, arising directly
from coenosarc, oval, shortly stalked, reaching 0,4 x 0,3 mm.

Colour: larger stems dark purple, smaller branches mauve, hydranths
white. Dark brown to creamy white after preservation.

Nematocysts: stenoteles of varying size, 6,3 x 4,5 — 12,6 x 10,8 uw, and
possibly other types too.

Variation. This species is more delicate in appearance than S. procumbens and
the branches more closely set and spreading, giving a reticulate appearance.
The origin of the branches is irregular, though there is a tendency for an alternate
arrangement in the younger parts.

The hydrophores vary in degree of development, and though they are
always double they may be large and triangular or mere elevations of the
trabeculae. They are always smaller than those of S. procumbens.

Distribution outside South Africa. Tropical East Africa and the Seychelles. Type
locality: Wasin, East Africa.

Distribution in South Africa. Santa Carolina, Mocambique, only. 21/35

Solanderia procumbens (Carter, 1873)

Fig. 22

Ceratella procumbens Carter, 1873: 10.
Ceratella spinosa Carter, 1873: 12.
Solanderia procumbens: Millard, 1966a: 444, fig. 4, pl. 1.

60 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 21.

Cladocoryne floccosa. A, hydranth bearing male gonophores; B, macrobasic eurytele,
discharged and undischarged.
Solanderia minima. C, stem; D, part of stem with hydranths; E, hydrophores.
Scale: C in cm, B in mm/100, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 61

Diagnosis. Colony large, fan-shaped, reaching 400 mm in height and 380 mm
in spread, branching in one plane. Main stem of old colonies very thick and
flattened in plane of branching. Smaller branches and main stem of young
colonies round in section. Hydranths and hydrophores borne irregularly on
stem and branches. Spines present in older regions only.

Hydrophore normally scoop-shaped, up to 0,5 mm in height, supported
on lower surface by longitudinal ribs continuous with trabeculae of branch.
Ribs not normally reaching margin. Hydranth with about 15 tentacles.

Gonophores scattered, arising directly from coenosarc, spherical, shortly
stalked, containing four radial canals in male.

Colour: dark brown on stem and larger branches with occasional tinges
of purple, shading to yellowish-brown or ochre on smaller branches (preserved
or dry material).

Nematocysts: large stenoteles 15,3 x 11,7 — 24,3 x 18,0 » and several
other types of unknown category.

Variation. This species is very variable in its general appearance and growth-
form. The branching may be dichotomous, alternate or unilateral, and a strong
development of the last arrangement may give a procumbent appearance to
the colony (possibly due to wave-action or currents). The branches may be
thick and stumpy with rounded tips, or slender with pointed tips, possibly due
to a difference in growth-rate. In older parts of the stem the trabeculae have a
reticulate appearance, but in younger parts the longitudinal ones predominant.
They may be surmounted by prominent chitinous crests. Spines are only found
in older parts of the colony, and may be pointed or spatulate, but tend to be
eroded away.

The hydrophores are particularly variable, and bilobed and double varieties
are common. In old colonies the edges may become eroded between the sup-
porting ribs producing a serrated appearance.

A form occurs with more slender branches and lighter coloration than the
normal one, and with hydrophores predominantly of the double type.

Distribution. Endemic to South Africa. Type locality: Natal.

Distribution in South Africa. West coast of Cape Peninsula to Natal in 12-130 m.
33/18 (s), 34/18 (s), 34/21 (s), 34/22 (s), 33/25, 34/25 (s), 29/31 (d), 29/32 (s)

Doubtful species
Solanderia atrorubens (Gray, 1868)

Dehitella atrorubens Gray, 1868: 579, fig. 1. Brazier, 1887: 576. Spencer, 1892: 19.
Solanderia atrorubens: Marshall, 1892: 12, pl. 5, pl. 7 (figs. 2-4). Vervoort, 1962: 534.

Remarks. This species is said to differ from other species of Solanderia by the more
bushy nature of the colony. The type locality is in doubt, as also is its occurrence in
South African seas. Gray gave the type locality as Australia with a query. Brazier
reported it from Algoa Bay, but gave no description. Spencer, quoting Gray’s descrip-

62 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 22.

Solanderia procumbens. A, stem of normal form (left) and slender form (right); B, I.s. young
gonophore; C, stenotele; D, part of stem with hydranths and gonophores; E, hydrophores
and spines.

Scale: A in cm, C in mm/100, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 63

tion, gave the locality as Delagoa Bay, Africa, which is probably a mistake. Marshall’s
material from Port Natal, which was illustrated, was assigned to S. procumbens by
Millard (1966a).

Solanderia labyrinthica (Hyatt, 1877)

Ceratella labyrinthica Hyatt, 1877: 551, pl. 17 (fig. 30).
Solanderia labyrinthica: Vervoort, 1962: 533. :

Remarks. This species is too inadequately described for there to be any certainty
about its identification. Hyatt mentions one specimen from Mauritius and another
from the Cape of Good Hope.

Solanderia rugosa Marshall, 1892
Solanderia rugosa Marshall, 1892: 13. Vervoort, 1962: 535.

Remarks. This species was founded on material from Port Natal. The description,
which was not illustrated, is too vague for definite recognition.

Family Asyncorynidae

Diagnosis. Colonial hydroids with stolonial or erect habit. Perisarc present on
hydrorhiza and hydrocaulus, not covering hydranth. Hydranth with conical
hypostome, one whorl of capitate oral tentacles, and scattered moniliform aboral
tentacles. Gonophores borne on hydranth amongst the aboral tentacles, form-
ing free medusae. Medusa with marginal tentacles bearing cnidophores.

Introduction. This family was originally created for the stolonial species Asyn-
coryne ryniensis from South Africa, in which the arrangement of tentacles differs
from that in any other form. Picard (1957) assigned to the same genus Zancloidea
philippina Hargitt, 1924, which has a similar arrangement of tentacles on the
hydranth, but an erect and branching stem with better developed perisarc.

These two species have medusoid gonophores in which the marginal
tentacles bear stalked cnidophores similar to those of the Zancleidae, but the
adult medusa is still unknown.

Picard included Asyncoryne and Pteronema Haeckel, 1879 in the family
Pteronematidae, but Pteronema, the type genus, is known only from a some-
what problematical medusa.

One genus only.

Genus Asyncoryne Warren, 1908

Diagnosis. As for family.

Types species: Asyncoryne ryniensis Warren, 1908.
One species only from South Africa.

Asyncoryne ryniensis Warren, 1908
Fig. 20F
Asyncoryne ryniensis Warren, 1908: 285, fig. 3, pl. 46 (figs 13-17). Bouillon, 1974: 144, fig. 10.
Diagnosis. Hydranth reaching 3 mm or more in height, spindle-shaped, with

64 ANNALS OF THE SOUTH AFRICAN MUSEUM

4-6 short, capitate oral tentacles and about 25 scattered moniliform aboral
tentacles. Perisarc present on hydrorhiza and continued over the short hydro-
caulus for 0,6-0,9 mm, not annulated.

Medusa-buds borne in clusters on hydranth body between the moniliform
tentacles. Medusa at release with marginal tentacles bearing cnidophores.
Adult medusa unknown.

Nematocysts of three types (from Bouillon):

(i) Stenoteles. Capsule subspherical, large or small. Present in oral and aboral
tentacles of hydranth and in medusa.

(ii) Macrobasic euryteles. Present in stolon and aboral tentacles of hydranth
and in medusa.

(iii) Microbasic euryteles. Present, but rare, in medusa.

Warren mentions large nematocysts of 27,0 x 19,5 u, which are probably
the large stenoteles, and small ones 10,0 x 8,0 u, which are probably the small
stenoteles.

Distribution outside South Africa. Seychelles.

Distribution in South Africa. Type locality and only record: Park Rynie, Natal,
littoral. 30/30 (1)

Family Cladocorynidae

Diagnosis. Hydranths borne on long, perisarc-covered stems arising from a
creeping hydrorhiza; with a conical hypostome, one whorl of capitate oral
tentacles, and one or more whorls of branched, capitate aboral tentacles.
Gonophores borne on hydranth body amongst the aboral tentacles.

Introduction. The Cladocorynidae are distinguished from all other athecate
families by the nature of the aboral tentacles. For nearly a hundred years
Cladocoryne was the only genus, but in 1963 Mammen added two more:
Lobocoryne and Cladocorynopsis.

The hydranth is comparatively large and conspicuous. There is one whorl
of a few capitate oral tentacles. The aboral tentacles are rather fleshy and bear
several rows of capitula, a condition known as ‘BRANCHED’ or ‘coryniform’
in the literature. The capitula are sessile in Lobocoryne, but stalked in Clado-
coryne and Cladocorynopsis.

The hydrocaulus is generally long, unbranched and covered with perisarc
to immediately below the hydranth.

Reproduction is by fixed sporosacs (C/adocoryne) or medusae (Clado-
corynopsis), but the nature of the adult medusa is unknown.

The Cladocorynidae are closely related to the Asyncorynidae, from which
they may have arisen by the concentration of the nematocyst batteries of the
aboral tentacles on to capitula (Vervoort 1966a).

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 65

KEY TO GENERA

[Genera not represented in South Africa are bracketed]
Capitula of aboral tentacles sessile. Aboral tentacles in three whorls [Lobocoryne]

—

— Capitula of aboral tentacles stalked a ; f 2
2. Aboral tentacles in one whorl .. ye 22 a [Cladocorynopsis |
— Aboral tentacles in several whorls fe a Ae oe .. Cladocoryne p. 65

Genus Cladocoryne Rotch, 1871

Diagnosis. Oral tentacles of hydranth stalked. Aboral tentacles in several whorls,
bearing stalked capitula in three longitudinal rows. Tentacles solid, septate.

Gonophores borne amongst the aboral tentacles of hydranth which may be
reduced to a blastostyle, in the form of fixed sporosacs.

Type species :*Cladocoryne floccosa Rotch, 1871.
One species only.

Cladocoryne floccosa Rotch, 1871
Fig. 21A-B
Cladocoryne floccosa Rotch, 1871: 228. Warren, 1908: 284. Behner, 1914: 419, figs 19-23.

Philbert, 1936: 1, figs 1-8. Weill, 1937: 1, figs 1-4. Vervoort, 1941: 190. Millard & Bouillon,

1974: 11, fig. 1D-E. Bouillon, 1974: 145, fig. 11.

Diagnosis. Stem unbranched, or rarely with one lateral branch, reaching a
maximum height of 12 mm; perisarc smooth or irregularly corrugated or
annulated near base, becoming thinner distally to terminate below hydranth.

Hydranth cylindrical, large, 0,5-0,9 mm in height, with a single whorl of
4~7 stalked and capitate oral tentacles, and up to 18 branched aboral tentacles
in 3-4 alternating verticils. Capitula of aboral tentacles up to 17 in number,
stalked, arranged in three longitudinal rows, two rows of 4-7 on latero-aboral
edges and one of 1-3 mid-oral.

Gonophores borne on hydranth among the aboral tentacles on short
pedicels, spherical, reaching 0,34 mm in diameter, forming fixed sporosacs of
the cryptomedusoid type.

Colour: hydranth red with chalky white area around mouth, perisarc horn-
coloured:

Nematocysts of three types:

(i) Macrobasic euryteles. On hydranth body and on gonophores. Capsule bean-
shaped, 28,8 x 11,7 — 31,2 x 15,0 ». Thread: in three sections, the first
unarmed and about 200 » long; the second increasing gradually in width and

armed with spiral bands of fine spines, about 90 » long; the third unarmed and
narrow.

(ii) Large stenoteles. Fairly common in capitula of tentacles. Capsule ovoid,
12,6 x 10,8 — 14,4 x 12,0 pz.

(iii) ?Small stenoteles. Abundant in capitula of tentacles and also present on
hydranth body. Capsule ovoid.6,0 x 5,0 — 6,7 x 5,7 ». Not seen discharged.

Variation. In the South African material the fertile hydranths are normal with

66 ANNALS OF THE SOUTH AFRICAN MUSEUM

well-developed tentacles, but Behner has shown that in European material
gonophore-bearing hydranths may be reduced to blastostyles with the gradual
reduction and loss of the tentacles.

Distribution. Circumglobal in tropical and subtropical waters, occasionally
extending into temperate areas. Type locality: Herm, Channel Islands.

Distribution in South Africa. Natal and Mocambique, in rock-pools. 30/30 (1),
D327) 26/3 210)s 25/382

Family Zancleidae

Diagnosis. Colonial hydroids with a stolonial habit. Hydrorhiza either reticular
or incrusting. Skeleton variously developed; either external and forming a feeble
sheath around base of polyp, or consisting of trabeculae contained within the
incrusting coenosarc and projecting through the surface as spines. Hydranths
either all alike or polymorphic; tentacles scattered, usually capitate (always
in South African genera), rarely filiform. Gonophores borne on hydranth body,
developing into free medusae.

Medusa with, or without, exumbrellar nematocysts confined to specialized
tissue in form of oval or club-shaped patches or elongated tracks; with simple
circular mouth; with four radial canals; with interradial gonads; with two or
four solid marginal tentacles, each with abaxial stalked capsules (cnidophores)
containing nematocysts, or without marginal tentacles; with or without ocelli
(Russell 1953; Bouillon 1974).

Introduction. This family is distinguished mainly by the very characteristic
medusa, whereas the polyp generation has few characters in common. Bouillon
(1974) recognizes four polyp genera: Zanclea Gegenbaur, 1856; Rosalinda
Totton, 1949; Pteroclava Weill, 1931 and his own new genus TJeissiera. Most of
the other medusa genera ascribed to the family by Kramp (1961) have either
been transferred to other families or are of doubtful affinity.

The polyp is typically cylindrical and unbranched, with scattered capitate
tentacles and a conical hypostome, bearing medusa-buds in the lower region.
Pteroclava alone has filiform tentacles. In Rosalinda and Pteroclava all the
hydranths are alike, but in Zanclea costata fertile hydranths may be devoid of
tentacles at certain stages of colony development (Russell & Rees 1936). There
is thus an approach to polymorphism with the differentiation of gonozooids or
blastostyles. In Teissiera polymorphism is firmly established, but has evolved
differently, with the differentiation of separate non-feeding dactylozooids
similar to those of Millepora, and the retention of unmodified polyps for the
dual function of feeding and reproduction.

In Zanclea and Pteroclava the hydrorhiza may be covered with a perisarcal
Sheath, which may extend over the hydrocaulus to the base of the hydranth.
This perisarc may be firm, or soft and membranous, and it may be absent in
young colonies. In Teissiera and Rosalinda the hydrorhiza forms an incrusting

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 67

| j
Fig. 23.

Zanclea sp. A, hydranth of Form 2; B, hydranth of Form 1; C, stenotele.

Staurocladia vallentini. D, hydranth with medusa-bud, redrawn from Gilchrist (1919, as
Cnidonema capensis); E, young medusae, the upper one is about to divide and has three
hypostomes, the lower three have recently divided; F, a single tentacle from medusa;
G, nematocysts of medusa, from left to right an undischarged and a discharged des-

moneme, stenotele.
Scale: C and G in mm/100, the rest in mm/10.

68 ANNALS OF THE SOUTH AFRICAN MUSEUM

basal coenosarc similar to that of Hydractinia, and within this coenosarc is a
trabecular skeleton of a chitin-like material. From it arise spines of various
sizes and shapes. This skeleton, although ‘internal’ and covered by cellular
material (except on the tips of the spines), is ectodermal in origin.

The most obvious character of the medusa is the presence of stalked cap-
sules, or CNIDOPHORES, containing batteries of nematocysts, on the marginal
tentacles. Other features include the restriction of exumbrellar nematocysts to
areas of special tissue, the tendency to lose the ocelli and the splitting of the
gonad into four interradial groups.

KEY TO GENERA

[Genera not represented in South Africa are bracketed]

1. Skeleton either absent or consisting of a perisarcal sheath round basal part of polyp.
Hydrorhiza not incrusting ae
— Skeleton consisting of trabeculae contained withinea an 1 incrusting ine ronhiad and

giving off spines... sh a mS <i ae a i oi a4 3
2. Tentacles capitate a we bee A se xa Se Zanclea
— Tentacles filiform .. oe on ; Bs .. [Pteroclava]
3. Colony polymorphic, with ecient and ser ison eae hc [Teissiera]
— Colony not polymorphic, hydranths all alike be oe [Rosalinda]

Genus Zanclea Gegenbaur, 1856

Syn. Gemmaria McCrady, 1858.

Halocharis L. Agassiz, 1862.
Diagnosis. Hydrorhiza reticular, not incrusting. Skeleton external and con-
sisting of a feebly developed perisarcal sheath enveloping the hydrorhiza and
sometimes extending on to the base of the hydrocaulus. Hydranth with scat-
tered capitate tentacles, 3-6 forming a whorl around the mouth.

Medusa with exumbrellar nematocysts; without brood-pouch above
stomach; without oral tentacles; with four simple radial canals; with two or four
marginal tentacles carrying cnidophores.

Type species: Zanclea costata Gegenbaur, 1856.

One or two species from South Africa.

Zanclea sp.

Fig. 23A—-C
Zanclea sp. Millard & Bouillon, 1974: 14, fig. 1F-L.
Diagnosis
Form I. Colony commensal with coral. Hydrorhiza ramifying on coral skele-
ton, giving rise to erect, unbranched hydrocauli which penetrate the soft body
of the coral and emerge through pores at the surface. Hydrorhiza and hydro-

caulus with firm perisarc, which becomes membranous at point of emergence.
Hydranth (plus hydrocaulus) reaching 1,1 mm in height, with 18-28

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 69

stalked capitate tentacles, of which six form an oral whorl and the rest are
irregularly scattered.
Nematocysts of two types:

(i) Stenoteles, 6,0 x 4,8 — 10,8 x 9,0 », abundant on tentacles and hydranth
body. Capsule almost spherical.
(ii) Small bean-shaped capsules, 13,8 x 6,0 », on lower part of hydranth body.

Form 2. Colony commensal with polyzoan. Hydrorhiza ramifying in body of
host, giving rise to erect, unbranched hydrocauli. Hydrorhiza and hydrocaulus
with thin perisarc terminating at point of emergence or slightly above.

Hydranth (plus hydrocaulus) reaching 0,8 mm in height, with 11-24
capitate tentacles, of which 3-5 form an oral whorl and the rest are irregularly
scattered. Tentacles mostly with very short stalks and some completely sessile,
the oral whorl with larger capitula than. the rest.

Medusa-buds borne on hydranth amongst or below the lowest tentacles,
the largest 0,16 mm in diameter and with rudiments of marginal bulbs.

Nematocysts of two types:

(i) Stenoteles, 6,0 x 4,8 — 11,4 x 10,8 », abundant on tentacles and also pre-
sent on hydranth body. Capsule almost spherical.

(ii) ?Macrobasic euryteles, 19,2 x 10,8 — 22,8 x 7,8 u, present on hydranth
body and hydrocaulus. Capsule bean-shaped.

Remarks. These colonies cannot be diagnosed with certainty until the medusae
have been reared, nor is it certain whether one or two species are involved.
Both are closely related to Zanclea costata Gegenbaur, 1856.

Distribution in South Africa. Inhaca only. 26/32 (s)

Family Clavidae

Diagnosis. Solitary or colonial, radially symmetrical polyps with conical hypo-
stome, undifferentiated endoderm and scattered filiform tentacles., Perisarc
present at least on hydrorhiza, absent to well developed on rest of body. Repro-
duction by fixed sporosacs or free medusae.

Adult medusa, when present, with mouth with four lips with continuous
row of nematocyst clusters along margin; with interradial gonads; with four
simple radial canals; with numerous solid margin tentacles not in groups; with
adradial ocelli (Kramp 1961).

Introduction. In the Clavidae the colonies are either stolonial or erect and
branching. Erect stems may be fascicled or unfascicled. Methods of branching
vary. An unusual method occurs in Corydendrium and Turritopsis, where there
is a simple division of the stem into two, the perisarc of the two limbs remaining
adnate for a short distance, then gradually diverging, so that the branches always
arise at a very acute angle.

The hydranth is of simple construction, tubular or spindle-shaped, with
filiform tentacles which are normally irregularly scattered over the body.
Occasionally there is an indication of irregular whorling, but there are never

70 ANNALS OF THE SOUTH AFRICAN MUSEUM

clear and definite whorls with regular arrangement. The hydranth may be
sessile in some stolonial forms, but is usually pedicellate but there is then no
clear demarcation between the hydranth body and the coenosarc of the pedicel
(hydrocaulus).

Perisarc is present at least as a thin membrane clothing the hydrorhiza.
On the rest of the body the development is variable. The body may be completely
naked as in Clava, or the hydrocaulus may be covered with perisarc up to the
base of the hydranth, as in Tubiclava. In Merona the hydranth emerges from a
firm tube of perisarc into which it can be withdrawn on contraction.

Nematophores occur in Merona, where they arise separately from the
hydrorhiza and are enclosed in nematothecae.

In the majority of genera reproduction is by means of fixed sporosacs, in
which indications of medusoid structures, such as radial canals or subumbrella
cavity, may sometimes be seen. The sporosacs may be borne direct on the
hydrorhiza, on the hydrocaulus, or on the hydranth. In Corydendrium the sporo-
sacs are retained within the perisarc of the hydrocaulus and never become visible
externally.

Occasionally the hydranth bearing the sporosacs shows signs of reduction
to a blastostyle and in Merona this differentiation is fully achieved, for the
sporosacs are borne on separate individuals without mouth or tentacles. Such
polymorphism is, however, rare in the family.

Among the South African representatives only Turritopsis produces free
medusae; but there are probably other medusa genera whose hydranth stage
has not yet been discovered.

Most authorities (e.g. Naumov, Thiel) consider that the family Clavidae,
with the scattered hydranth tentacles, is a primitive family and has led to
several more advanced ones by the concentration of the tentacles into one whorl.
This may have occurred along three separate lines:

(i) From stolonial colonies to the Hydractiniidae, with the development of poly-
morphism. Here it might be noted that in Merona (Clavidae) polymorphism
has already been achieved, for there are gastrozooids, gonozooids and dacty-
lozooids. Among the Hydractiniidae, Clavactinia is a primitive member, in
which the hydranth tentacles, although concentrated at the distal end, have
not yet been reduced to one whorl.

(ii) From erect and at least slightly branched stems to the Bougainvilliidae.
Thiel’s family (1962), the Clavopsellidae, represents an intermediate stage,
for the hydranth tentacles are concentrated into definite whorls, which in
Clavopsella and Silhouetta are restricted to the distal end (but not in Balella).
In this work these three genera are included in the Bougainvilliidae because
of the medusa structure of Sil/houetta. Balella’s medusa has four marginal
tentacles, but is otherwise imperfectly known. Clavopsella has sporosacs.

(iii) From erect and slightly branched stems to the Eudendriidae, with the devel-
opment of a trumpet-shaped hypostome and the characteristic gonophores.
In this case Myrionema (Eudendriidae) shows primitive characters in its
elongated hydranth and several whorls of tentacles concentrated at the distal
end.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA ee |

It thus may be difficult to draw a dividing line between the four families
Clavidae, Hydractiniidae, Bougainvilliidae, and Eudendriidae, and in doubtful
cases medusa structure should be the guide.

KEY TO GENERA
[Genera not represented in South Africa are bracketed]

1. Colony erect and freely branched 2
— Colony stolonial, polyps at most slightly branched. Gonophores in the form of fixed
sporosacs .. : ; rd ae 4

2. Branches not ndtiaite to stem. ere: in ite form of fixed sporosacs
[Cordylophora]
Branches adnate to stem for some distance .. a i ve 3
. Gonophores forming free medusae es . ss Tiweneoes p. 76
Gonophores in the form of fixed sporosacs contained i in perisarc of stem
Corydendrium p. 72

1 wi |

4. Hydranth, or at least its pedicel (hydrocaulus), surrounded ae pees a 5

— Hydranth naked, perisarc limited to hydrorhiza se 7 6

5. Hydranth retractable into perisarcal tube. See ere on sonia bhistoatylcs.
Nematothecae present ae Merona p. 72

— Hydranth not retractable into perisarc. Gonophores on 1 hydranth body. No nemato-
thecae he ae oe eA rf .. [Tubiclava]

6. Gonophores ee on reeaniis bod be me Suir a Clava p. 71

— Gonophores borne on hydrorhiza aes es Be = .. Rhizogeton p. 75

Genus Clava Gmelin, 1791

Diagnosis. Colony stolonial. Hydrorhiza giving rise directly to sessile hydranths
which are naked except for a low perisarcal collar round base. Hydranth with
scattered filiform tentacles. Gonophores in the form of fixed sporosacs, borne
by the hydranth below the tentacles.

Type species: Hydra multicornis Forskal, 1755.
One species only from South Africa.

Clava sp.
Fig. 24A

Diagnosis. Hydrorhiza reticulate, clothed in thin perisarc which forms a low
collar round the base of the hydranth. Hydranth unbranched, with 21-30
scattered filiform tentacles, reaching a maximum height of 7 mm.

Gonophores unknown.

Nematocysts of two types:

(i) Microbasic euryteles, 0,67 x 0,22 — 0,72 x 0,22 pn.

(ji) Desmonemes, 0,45 x 0,32 pu.

Colour: creamy pink.

Remarks. This species still awaits the discovery of gonophores for final diag-
nosis.

Distribution in South Africa. Cape Peninsula: Melkbosstrand, Bakoven and
Oudekraal, littoral. 33/18 (1)

72 ANNALS OF THE SOUTH AFRICAN MUSEUM

Genus Corydendrium van Beneden, 1844
Syn. Soleniopsis Ritchie, 1907.

Diagnosis. Colony with erect and branching stem. Stem with firm perisarc,
branches adnate to stem for some distance after origin. Hydranth with scattered
filiform tentacles. Gonophores in the form of fixed sporosacs contained wholly
within perisarc of stem.

Type species: Sertularia parasitica Linnaeus, 1767.
One species only from South Africa.

Corydendrium parasiticum (Linnaeus, 1767)
Fig. 24B-D

Sertularia parasitica Linnaeus, 1767: 1315.

Corydendrium parasiticum: Vervoort, 1946b: 292. Millard, 1959a: 301. Millard & Bouillon,
ee lo wee Ritchie, 1907a: 495, figs 142-143, pl. 26 (fig. 1).

Diagnosis. Stem thick, fascicled and branching, reaching 72 mm; perisarc stiff,
not annulated, terminating abruptly below tentacles of hydranth. Branching
by simple division of the coenosarc and surrounding perisarc into two, the two
tubes running parallel and adnate to one another for a short distance, then
diverging at an acute angle and free from one another to a varying degree.
Branches commonly, but not always, in one plane. Hydranths emerging from
the open ends of the tubes, which are 0,3-0,6 mm in diameter.

Hydranth elongated, 1-2 mm in length when extended, with 22-44 scat-
tered filiform tentacles, the distal four or five arranged in a whorl. Hypostome
prominent and club-shaped. Coenosare swollen within terminal part of
perisarc.

Gonophores (not recorded in South Africa) in the form of fixed sporosacs,
wholly contained within perisarcal tube, arising from coenosarc and lying
parallel to it, in the form of long, slender cylinders without spadix. Female con-
taining about 13 eggs.

Nematocysts of two kinds:

(i) Heteronemes, 7,0 x 4,0 wu.

(ii) Desmonemes, 5,0 x 3,5 pu.

Distribution outside South Africa. Mediterranean, Cape Verde, Seychelles, East
Indies, India, Indo-China, Japan.

Distribution in South Africa. Durban Bay and Inhaca. 29/31 (s, h), 26/32 (s)

Genus Merona Norman, 1865

Diagnosis. Colony stolonial and polymorphic. Gastrozooid unbranched, with
hydrocaulus enclosed in a firm perisarcal tube into ‘which it can be withdrawn.
Hydranth with scattered, filiform tentacles. Gonozooid (blastostyle) borne on

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 73

Fig. 24.

Clava sp. A, hydranths.
Corydendrium parasiticum. B, stem; C, part of stem with hydranths; D, a single hydranth.
Rhizogeton nudum. E, hydranth and male gonophore.
Turritopsis nutricula. F, hydranth; G, stem with hydranths and medusa-buds.
Scale: B in cm, A and C in mm, the rest in mm/10.

74 ANNALS OF THE SOUTH AFRICAN MUSEUM

hydrorhiza, producing fixed sporosacs. Nematophores borne on hydrorhiza,
enclosed in firm perisarcal tube.

Type species: Tubiclava cornucopiae Norman, 1864.
One species only from South Africa.

Merona cornucopiae (Norman, 1864)
Fig. 25

Tubiclava cornucopiae Norman, 1864: 82, pl. 9 (figs 4-5).
Merona cornucopiae: Rees, 1956c: 499, figs 1-3. Cabioch, 1965: 401, figs 1-3. Millard, 1966a:
452, fig. 5 H, J. Millard & Bouillon, 1973: 28, fig. 3 H, J.
Diagnosis. Colony epizootic on the bivalve Crassatella capensis Lamy. Hydro-
rhiza reticulate, with tubes coalesced into mat in denser regions. Gastrozooids
consisting of a perisarc-covered stem and a terminal hydranth. Perisarc forming
a firm tube expanding distally and often curved, reaching 4,3 mm in height.
Hydranth with 16-20 scattered filiform tentacles.

Blastostyle arising separately from hydrorhiza, surrounded by a low flaring
collar of perisarc, without mouth or tentacles, bearing a cluster of gonophores,
reaching a height of 1,4 mm. Gonophores in the form of fixed sporosacs, male
and female on separate colonies.

Fig. 25.

Merona cornucopiae. A, part of colony growing on bivalve showing gastrozooids, one gonozooid
and nematophores; B, nematothecae.
Scale in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 75

Nematophores usually present, borne on hydrorhiza, 0,3-0,6 mm in height,
completely enclosed in a slender perisarcal tube which expands distally into a
funnel-shaped nematotheca.

Nematocysts of two kinds:

(i) Microbasic euryteles, 16,2 « 4,5 ». Capsule elongated.
(ii) Desmonemes, 7,2 < 2,7 — 3,6 u. Capsule ovoid.

Variation. Outside South Africa M. cornucopiae has been reported on a variety
of different molluscs and on a gorgonian. The presence or absence of nemato-
thecae in South African material is variable and one colony has been found with
none at all. Since nematothecae have now been recorded in the type material
(Cabioch 1965), they can be included in the diagnosis.

Distribution outside South Africa. North Atlantic from the Shetland Islands (type
locality) to the Mediterranean, Pacific and Atlantic coasts of North America,
Seychelles.

Distribution in South Africa. Agulhas Bank, from Still Bay to Algoa Bay, 39-
76 m. 34/21 (s), 34/25 (s)

Genus Rhizogeton L. Agassiz, 1862

Diagnosis. Colony stolonial. Hydrorhiza giving rise directly to naked and sessile
hydranths. Hydranth with scattered filiform tentacles. Gonophores in the form
of fixed sporosacs, borne directly on hydrorhiza.

Type species: Rhizogeton fusiforme L. Agassiz, 1862.
One species only from South Africa.

Rhizogeton nudum Broch, 1909

Fig. 24E

Rhizogeton nudum Broch, 1909: 137, fig. 1. Ritchie, 1910c: 827. Mammen, 1963: 34, fig. 3.
Millard & Bouillon, 1974: 15, fig. 2A.

Diagnosis. Hydrorhiza creeping and reticular, coated with transparent perisarc.
Hydranth reaching 2 mm in height, sessile, naked except for a low perisarcal
collar around base, with 16-26 filiform tentacles irregularly scattered over
distal two-thirds, the proximal tentacles shorter than the distal.

Gonophores in the form of fixed sporosacs, borne directly on hydrorhiza,
completely enveloped in thin perisarc. Male gonophore oval, reaching 0,3 mm
in height. Female unknown.

Distribution outside South Africa. Arctic (type locality: Spitzbergen, 35 m),
Pacific (Christmas Is.), India.

Distribution in South Africa. Mocambique, Inhaca to Santa Carolina. 26/32 (s),
US| 32s OAYBS

76 ANNALS OF THE SOUTH AFRICAN MUSEUM

Genus Turritopsis McCrady, 1856
Syn. Dendroclava Weismann, 1883.

Diagnosis. Colony with erect and branching stem. Stem with firm perisarc,
branches adnate to stem for some distance after origin. Hydranth naked, not
retractable into perisarc. Gonophores borne on stem, developing into free
medusae.

Medusa with eight or more simple marginal tentacles; stomach with an
apical mass of vacuolated endoderm cells; with ocelli.

Type species: Oceania (Turritopsis) nutricula McCrady, 1856.

One species only from South Africa.

Turritopsis nutricula McCrady, 1856
Fig. 24F-G

Oceania (Turritopsis) nutricula McCrady, 1856: 55; pls 4S.

Turritopsis nutricula: Russell, 1953: 115, figs 54-56, pl. 5 (figs 1-5), pl. 29 (figs 1-3). Vervoort
1968: 5. Millard & Bouillon, 1973: 30, fig. 4C. Millard & Bouillon, 1974: 15.

Turritopsis dorhni: Mammen 1963: 35, fig. 4.

Diagnosis. Stem reaching 5 mm in height, branching irregularly, increasing in
diameter from base to distal end, covered with firm perisarc, branches adnate
and parallel to stem for a short distance, then diverging at an acute angle,
perisarc terminating below hydranth. Hydranth terminal, with 12-38 filiform
tentacles irregularly scattered over distal part, proximal ones shorter than
distal.

Medusa-buds arising below hydranths, pear-shaped, enclosed in perisarc,
with eight marginal tentacles at liberation. Adult medusa (not known from
South Africa) deep bell-shaped; stomach large, cross-shaped, brilliant red;
mouth with four large lips and a row of nematocyst knobs on edge; 80-90
marginal tentacles in a single row.

Nematocysts (medusa): microbasic euryteles and desmonemes.

Variation. Only small unfascicled colonies have so far been found in South
Africa. Mature colonies have thick and fascicled stems and reach about 20 mm
in height. The perisarc of the stem is often in two layers: an inner firm layer,
usually corrugated, and an outer thinner layer, which may have adhering silt.
In newly settled colonies the stem is unbranched and bears a single terminal
hydranth.

Distribution outside South Africa. Circumglobal, mainly in tropical waters but
spreading into temperate waters too. Medusa more widely known and reported
in North Sea, Japan and New Zealand.

Type locality: Charleston Harbour, S. Carolina.

Distribution in South A [frica. Mogambique, Inhaca to Santa Carolina. 26/32 (s),
23/39, 21/39

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA i 5

Family Eudendriidae

Diagnosis. Colonial hydroids with an erect, usually branched stem enclosed in
firm perisarc up to the base of the hydranth body. Hydranth large, radially
symmetrical, with trumpet-shaped hypostome and one or more whorls of
filiform tentacles immediately below it.. Reproduction by fixed sporosacs
borne on the hydranth body below the tentacles; reproductive hydranth often
reduced to a blastostyle. Male gonophore usually with several chambers in
linear series. Young female gonophore with a single egg encircled by a spadix.

Introduction. Members of the Eudendriidae are comparatively easy to recognize,
but identification within the family, particularly in the genus Eudendrium, is
not at all easy, since most of the macroscopic features vary with age and habitat.
The stem may be branched or unbranched, fascicled or unfascicled. It is
always covered with firm perisarc which terminates on or below the base of the
hydranth. The perisarc is usually smooth or wrinkled with characteristic groups
of annulations on the origins of the branches and at other strategic positions.
The hydranth is large and distinguished from all other families of the
Athecata by the wide, trumpet-shaped hypostome which usually gapes open
even in preserved material. Broch (1916) was the first to point out that the
endoderm of the hydranth has become differentiated, the cells of the oral part
of the hypostome being small and ‘indifferent’, and the mucous and digestive
cells being limited to the lower part of the hypostome and the gastral cavity.
The ectoderm is thin over most of the hydranth, but usually there is a shallow
groove round the base of the body where the perisarc of the stem terminates
and where its growth occurs. The ectoderm below this level is thicker, with a
circle of characteristic large cells just below the groove. Mammen (1963)

UNBRANCHED BIFID

capsule

ae p— thin perisarc

RS

cnidophore

thick perisarc BIUAING aleID

HYDRANTH SPADIX OF 9 GONOPHORE

Fig. 26.
Eudendrium, parts of the hydranth and types of female gonophore.

78 ANNALS OF THE SOUTH AFRICAN MUSEUM

maintains that the groove is only visible in the contracted hydranth and that it
therefore cannot be used as a diagnostic character as has been done in the past.
Immediately above the groove there is, in some species, a NETTLE RING, or circle
of large nematocysts. Similar large nematocysts may occur on the hypostome
as well, and they then belong to a different category to the small microbasic
euryteles which are always present on the tentacles. The presence or absence,
and the category, of these large nematocysts provide a useful diagnostic
character.

Reproduction is by fixed sporosacs which develop in a whorl round the
base of the hydranth. Male and female are normally borne on separate colonies,
but there are rare cases of hermaphroditism (E. motzkossowskae). The hydranth
bearing the gonophores is usually atrophied to some extent, but the degree
varies from species to species and sometimes within one species. Thus, the
hydranth may retain its tentacles and continue to function as a normal feeding
individual, or the tentacles may be progressively resorbed as the gonophores
mature to form a blastostyle. Sometimes the tentacles are absent and the
mouth closed from the earliest stage.

Male gonophores typically consist of several bulbous chambers containing
the spermatogenic cells and arranged in linear series. In the earliest stage there
is only one chamber, but as development proceeds additional chambers are
added from below. Thus the number of chambers cannot be used as a diagnostic
character although the maximum number may be characteristic of a species.

The female gonophore consists of a spadix arching round a single large egg.
The spadix may be simple or branched. It provides a reliable diagnostic charac-
ter, although it must be borne in mind that there are several species with an
unbranched spadix and several with a bifid spadix. As the egg matures the spadix
straightens out and arches away from the egg, eventually becoming shed or
resorbed. The egg is left in a perisarcal capsule where it is fertilized and develops
into a planula. As development proceeds the female gonophores lose their
whorled arrangement and, due to lengthening of the blastostyle, become
irregularly distributed along it.

Due to the fact that the earlier systematists based their descriptions on
characters which have since proved to be unreliable, many of the records are
of dubious validity and the distribution of the species uncertain. A new school
of systematists has recently been growing in Europe, including Picard and
Bouillon, in which the nematocysts are being increasingly used for species
diagnosis. These, together with the nature of the female gonophores, and some-
times other specific characters, such as the presence of special nematocyst-
bearing processes, Or CNIDOPHORES, in E. racemosum, make certain diagnosis
possible. The presence of the large nematocysts can easily be determined even
with a low-powered microscope, and with practice their type can often be
recognized in the undischarged state.

In view of these points, the South African material of Eudendrium has been
re-examined and revised. Only that material in which the diagnosis is certain

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 79

has been included in the records. Male colonies and infertile colonies are often
impossible to identify. It should be noted, however, that the genus occurs
abundantly all round the coast and that the various species are probably more
abundant and more widespread than is indicated by the records.

The family Eudendriidae has possibly evolved from clavid stock by the
development of the trumpet-shaped hypostome and the concentration of the
tentacles into one whorl. The genus Myrionema, with its elongated hydranth
and numerous tentacles in several close whorls, may represent a primitive
member.

KEY TO GENERA
[Genera not represented in South Africa are bracketed]

1. Tentacles less than 40 in number, arranged in a single whorl .. Eudendrium p. 79
— Tentacles numerous, over 60, arranged in several close whorls on distal end of
hydranth .. nee a ce aa on Be at: [Myrionema]

Genus Eudendrium Ehrenberg, 1834
Diagnosis. Hydranth with short body and one whorl of filiform tentacles.

Type species: Tubularia ramosa Linnaeus, 1758

KEY TO SPECIES

il Epa cibie and mouth of hydranth blocked by a solid plug of endoderm E. angustum
— Hypostome and mouth normal aoe el oe ee aD)
2. Young female gonophore with branching ie Meer Bate with tall, fascicled

stem j et . a eS
— Young female gonophore with curved but unbranched spadix ee ce >)
3. Young female gonophore with spadix giving off several lateral branches on sacl side.

old ones with warty capsule. No large nematocysts Se ". E. deciduum
— Young female gonophore with bifurcating spadix. Large nematocysts present . 4

4. Large nematocysts atrichous isorhizas (and thread coiled many times in figure of 8
when undischarged). Old female gonophore with ores capsule. Male gono-
phore 3- or 4-chambered .. . E. carneum

— Large nematocysts macrobasic eur feles (and butt in on longitudinal coils when
undischarged). Old female oe with smooth Cas Male gonophore 1- or

2- chambered . a ; am 1. &. ritchier
5. No large nSHAEo CSL eaten srrvall aaa afidi enineotic? stem eigassicled n > 6
— Large nematocysts present .. bee ns e. a 48 oo se Papel
6. Stem at least 0,08 mm in diameter Ae me a a ‘ E. capillare
— Stem less than 0,08 mm in diameter ec cat .. . Iantarcticum
7. Large nematocysts macrobasic euryteles (and butt in 3.4 longitudinal coils when

undischarged) ; E. motzkossowskae
— Large nematocysts microbasic euryteles (and butt shorter than capsule, not coiled,

when undischarged). Mature stem tall, fascicled at base, pinnate is _E. ramosum

Eudendrium angustum Warren, 1908
Fig. 27A-B
Eudendrium angustum Warren, 1908: 275, fig. 2, pl. 45 (figs 5-6). Gravier, 1970a: 115.
Diagnosis. Colony arborescent, reaching 76 mm in height. Stem unfascicled,
branching irregularly. Perisarc annulated on origins of branches and at other

80 ANNALS OF THE SOUTH AFRICAN MUSEUM

irregular intervals. Hydranth with 25-30 tentacles, with mouth and hypostome
blocked by a plug of elongated endoderm cells continuous with the digestive
endoderm at base of hydranth.

Gonophores unknown.

Nematocysts of two types:

(i) Large, 23,3 x 10,4 », on hypostome and body of hydranth.

(ii) Small, 5,0 x 2,2 », chiefly on tentacles.

Remarks. This species has not been rediscovered in South Africa, although it
has been reported, but not described, from Madagascar by Gravier (1970a).
Its reproduction and nematocyst types remain unknown.

It might be noted that the blockage of the hypostome by endoderm, the
feature on which the species was founded, may be a transitory phase, for cells
are known to move through the coelenteron in certain species of Hydrozoa
(Braverman 1973).

The large nematocysts in Warren’s diagram could be either macrobasic
euryteles or isorhizas. They are not microbasic euryteles. This would suggest
either E. motzkossowskae or E. carneum.

Distribution outside South Africa. South-east Madagascar.
Distribution in South Africa. Algoa Bay only, 73 m (type locality). 33/25 (s)

Eudendrium ?antarcticum Stechow, 1921
Fig. 27C-D

Eudendrium antarcticum Stechow, 1921b: 225. Stechow, 1925a: 415, fig. 5. Millard, 1957: 183.
non Eudendrium antarcticum Totton, 1930: 140 (=E. tottoni Stechow, 1932).

Diagnosis. Small colonies reaching a maximum height of 3 mm. Stem unfascicled,
unbranched or sparingly branched, smooth for the most part but annulated at
base, on origins of branches and at other irregular intervals, very delicate,
only 9,050,075 mm in diameter. Hydranth with 16-23 tentacles and very large
hypostome.

Male gonophores borne on blastostyles in which the tentacles are completely
atrophied, one-chambered with a terminal tubercle. Female gonophores (not
recorded from South Africa) borne in pairs on tentacular hydranths, with
curved and unbranched spadix, containing one egg (Stechow 1925a).

Only one type of nematocyst: small microbasic euryteles, present on
tentacles, terminal tubercles of male gonophores and elsewhere, 7,2 < 2,7 yp.
Butt with only a few spines on distal end.

Remarks. The position of this material and its identity with the true E. antarcti-
cum remain uncertain. It differs from the other small species of Eudendrium
in the slender stem and the structure of the microbasic euryteles which are
different to any in the northern hemisphere (Picard: personal communication).

Distribution outside South Africa. Bouvet Island, Antarctic (type locality).

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 81

Eudendrium angustum. A and B, stems redrawn from Warren (1908).

Eudendrium ?antarcticum. C, hydranths; D, male blastostyles.

Eudendrium capillare. E, colony with female blastostyles; F, very young female blastostyle;
G, older female blastostyles; H, mature female blastostyle with spadices shed; J, male
blastostyles, one mature and one young.

Scale: A in cm, B in mm, the rest in mm/10.

82 ANNALS OF THE SOUTH AFRICAN MUSEUM

Distribution in South Africa. Two records only: False Bay and Agulhas Bank,
in 18 and 102 m respectively. 34/18 (s), 35/21 (d)

Eudendrium capillare Alder, 1856

Fig. 27E-J

Eudendrium capillare Alder, 1856: 355, pl. 12 (figs 9-12). Picard, 1955: 183. Mammen, 1963:
57, figs 25, 26. Millard & Bouillon, 1974: 17, fig. 3E—-H.

Eudendrium parvum Warren, 1908: 272, fig. 1, pl. 45 (figs 1-4).
Eudendrium ? parvum: Millard, 1959a: 305, fig. 1G—H.
non Eudendrium ?capillare: Millard, 1966a: 454.
Diagnosis. Small colonies common on other hydroids and on weed, reaching a
maximum height of 14 mm. Stem unfascicled, unbranched or sparsely and
irregularly branched, annulated or corrugated on origins of branches and at
other irregular intervals, hydranth pedicels often annulated or corrugated
throughout. Hydranth with 15-23 tentacles.

Male gonophores borne on blastostyles in which the tentacles are completely
atrophied at all stages, one- to three-chambered, sometimes with a terminal
tubercle. Female gonophores borne on hydranths in which the tentacles are
reduced in size, with curved and unbranched spadix, containing one egg. In
older stages the hydranth tentacles completely atrophied, the spadices shed
and the eggs in their transparent capsules distributed irregularly along the
blastostyle pedicel.

Only one type of nematocyst: small microbasic euryteles, abundant on
tentacles and also present in body, 4,8 x 2,1 — 8,0 x 3,0 uw.

Colour: hydranths pale horn-colour (Warren), eggs orange, spadix white.

Distribution outside South Africa. Uncertain, since most of the records in the
literature give insufficient information. Certainly from the North Atlantic and
Mediterranean, and from India. Type locality: Northumberland, U.K.

Distribution in South Africa. Park Rynie in Natal to Santa Carolina in Mogam-
bique, probably more widespread than this. 30/30 (1), 26/32, 25/32, 21/35

Eudendrium carneum Clarke, 1882
Fig. 28

Eudendrium carneum Clarke, 1882: 137, pl. 7 (figs 10-17). Vannucci, 1954: 101, pl. 1 (figs
1-9), pl. 2 (fig. 8), pl. 4 (figs 2-5). Millard, 1959a: 302, fig. 1A—F. Vervoort, 1968: 8.
non Eudendrium 2carneum: Millard, 1966a: 455.
Diagnosis. Colonies tall, much-branched and shrub-like, reaching a height of
162 mm. Stem and larger branches fascicled. Branching irregular. Perisarc
distinctly annulated on origins of branches and at other irregular intervals.
Hydranth pedicels with scattered groups of annulations or completely annu-
lated. Hydranth with 26-33 tentacles.
Male gonophores borne on blastostyles in which the tentacles are com-
pletely atrophied, three- or four-chambered. Female gonophores borne on

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA

>

Fig. 28.
Eudendrium carneum. A, stem; B, part of stem with male blastostyles; C, large isorhiza;
D, microbasic eurytele, undischarged and discharged; E, mature male blastostyle; F and
G, young female blastostyles with bifid spadices; H, old female blastostyle with spadices

shed leaving basket-shaped capsules.
Scale: A in cm, B in mm, C and D in um, the rest in mm/10.

84 ANNALS OF THE SOUTH AFRICAN MUSEUM

hydranths in which the tentacles are reduced in size, with bifurcating spadix,
containing one egg. In older stages the tentacles completely atrophied, the
spadices shed and the developing embryos contained in basket-shaped capsules
distributed irregularly along the pedicel.

Nematocysts of two types:

(i) Large atrichous isorhizas, present on hypostome and hydranth body,
24 x 11 uw. Capsule bean-shaped. Thread coiled in figure of eight in longi-
tudinal axis.

(ii) Small microbasic euryteles, present on tentacles and elsewhere, 9 x 4 nu.
Capsule ovoid. Butt with three large spines on distal end.

Distribution outside South Africa. Atlantic coast of North America, Brazil,
St. Helena, Pacific coast of North America, east tropical Pacific. Type locality:
Fort Wool, Virginia.

Distribution in South Africa. Durban and Inhambane. On ships’ hulls, littoral
and in shallow water. 29/31 (I, s, h), 23/35 (s)

Eudendrium deciduum Millard, 1957
Fig. 29A—F

Eudendrium deciduum Millard, 1957: 184, fig. 2. Millard, 1966a: 456.

Diagnosis. Colonies tall, much branched and tree-like, reaching a height of
161 mm. Stem and larger branches fascicled. Branching irregular, but final
pedicels with a unilateral tendency. Perisarc distinctly annulated on origins of
branches and at other irregular intervals. Hydranth pedicels with groups of
annulations, generally smooth distally. Hydranth with 22-30 tentacles.

Male gonophores borne on hydranths in which the tentacles are completely
atrophied, two- or three-chambered. Female gonophores borne on hydranths
in which the tentacles are reduced in size, with spadix bearing three or four
lateral branches on each side, containing one egg. In older stages the tentacles
completely atrophied, the spadices shed and the developing embryos contained
in warty capsules distributed irregularly along the pedicel.

Colour: larger stems dark brown, smaller ones clear brown to horn-colour,
female gonophores bright orange.

Only one type of nematocyst: small ?microbasic euryteles on tentacles and
body, 6,3 x 2,7 — 8,1 x 3,6 w. Capsule ovoid.

Distribution. Endemic to South Africa. Type locality: False Bay.

Distribution in South Africa. Dassen Island on the west coast to Algoa Bay,
in 4-18 m. 33/18 (s), 34/18 (s), 34/22 (s), 33/25 (s)

Eudendrium motzkossowskae Picard, 1951
Fig. 29G—-H

Eudendrium simplex: Motz-Kossowska, 1905: 56, pl. 3 (figs 18-19).
Eudendrium motzkossowskae Picard, 1951: 339. Millard & Bouillon, 1974: 17, fig. 3J-K.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 85

Diagnosis. Small colonies reaching a maximum height of 12 mm. Stem
unfascicled, unbranched or sparsely branched, smooth for the most part but
annulated on origins of branches and at other irregular intervals, hydranth
pedicels sometimes annulated or corrugated throughout. Hydranth with 16-27
tentacles.

Gonophores borne on hydranths in which the tentacles are not atrophied,
male and female on separate colonies. Male gonophore one- or two-chambered.
Female gonophore (not reported from South Africa) with curved and
unbranched spadix, hermaphroditic, containing one egg within the curvature
of the spadix and one or more masses of spermatogenic cells at summit between
spadix and superficial ectoderm.

Nematocysts of two types:

(i) Large macrobasic euryteles, present on hypostome and lower part of hydranth
body, 15,6 x 6,0 — 31,6 x 14,0 uw. Capsule bean-shaped. Butt 5-6 times
length of capsule, in 3-4 obliquely longitudinal coils when undischarged,
swollen distally to about double the width when discharged, armed with
spirally arranged barbs.

(ii) Small microbasic euryteles, present on tentacles and elsewhere, 6,6 x 2,4 —
7,2 X 3,0 uw. Capsule ovoid.

Variation. Only small colonies have so far been found in South Africa. Neither
Motz-Kossowska nor Picard gives any indication of the size and degree of
branching attainable in the Mediterranean material.

Distribution outside South Africa. Mediterranean only (type locality).

Distribution in South Africa. Mocambique, from Inhaca to Santa Carolina,
littoral to 3 m. 26/32, 24/35 (s), 21/35

Eudendrium ramosum (Linnaeus, 1758)
Fig. 31A—D

Tubularia ramosa Linnaeus, 1758: 804.
Eudendrium ramosum: Allman, 1872: 332, pl. 13. Leloup, 1952: 127, fig. 64. Picard, 1955:
183. Millard, 1966a: 456. Millard & Bouillon, 1973: 32, fig. 4F. Millard & Bouillon, 1974:
19, fig. 3A—D.
Eudendrium ?capillare: Millard 1966a: 454.
Diagnosis. Mature colonies tall, reaching a maximum height of 175 mm; main
stem fascicled at base, sometimes slender and flexuous with roughly alternate
branches, sometimes stiff and bushy with irregular branches; branches unfas-
cicled. Small colonies commonly occurring on weed and other hydroids, reach-
ing 10-20 mm, with unfascicled stems which may be unbranched or sparingly
branched in a roughly alternate fashion. Perisarc smooth for the most part but
with groups of a few distinct annulations above origins of branches and at other
irregular intervals. Hydranth pedicels annulated in basal region. Hydranth
with 14-29 tentacles.
Gonophores borne on hydranths in which the tentacles are atrophied to a
varying degree. Male gonophores one- or two-chambered. Female gonophores

86 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 29.

Eudendrium deciduum. A, stem; B—D, young female gonophores showing branching spadix;
E, part of sterile stem; F, branch with two male blastostyles.
Eudendrium motzkossowskae. G, mature male blastostyle; H, large macrobasic eurytele,
discharged and undischarged.
Scale: A in cm, E and F in mm, H in mm/100, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 87

with curved and unbranched spadix which is shed later leaving a smooth
transparent capsule, containing one egg.
Nematocysts of two types:

(i) Large microbasic euryteles, present on hypostome and lower part of hydranth
body, on spadix of female gonophore and on distal end of male gonophore,
rather variable in size, 18,0 7,2°— 28,8 x 13,8 ». Capsule bean-shaped.
Butt about ? length of capsule, increasing in diameter distally but not coiled
when undischarged, when discharged held at right angles to capsule and
dilated distally to about double its width. Spines spirally arranged on butt
and decreasing in length distally.

(ii) Small microbasic euryteles, present on tentacles and elsewhere, 5,8 « 2,7 —
8,4 x 4,2 uw. Capsule ovoid.

Colour: hydranth body yellowish to orange-pink, tentacles and hypostome
white.

Variation. This species has a variable growth-form and can be distinguished
with certainty only on the nematocysts. It is the ‘only South African species
with large microbasic euryteles.

The degree of atrophy of the blastostyle is variable. The female gonophores
are borne on fully developed hydranths, and the tentacles are then gradually
resorbed until by the time the spadix is shed there is no sign of them left. In the
male, gonophores may be borne on hydranths with their tentacles in any stage
from fully-formed to completely atrophied. The gonophores are one-chambered
when young, becoming two- or three-chambered when ripe.

In some colonies the stem is almost completely annulated throughout.

Distribution outside South Africa. North Atlantic, from the Arctic to Cape
Verde, Mediterranean, Seychelles. Further distribution doubtful. Type locality:
Kentish shore, U.K.

Distribution in South Africa. From off Saldanha Bay to Inhaca, littoral to 84 m.
Probably more abundant than records indicate. 33/17 (s), 33/18 (s), 34/18 (I, s),
34/25 (s), 33/27 (1), 31/29 (1), 26/32 (s), 25/32

Eudendrium ritchiei sp. nov.

Fig. 30

Eudendrium annulatum(?): Ritchie, 1909: 70. Millard, 1966a: 454.
Eudendrium ?carneum: Millard, 1966a: 455.

Holotype. Abundant male and female colonies. Saunders Rocks, Sea Point,
littoral. Cat. no. SAM-H1803.

Description of holotype. Colony stiff and spiky, reaching a maximum height of
28 mm. Stem fascicled, branching irregularly and in all planes; branches stiff
and making an angle of about 45° with stem, often rebranching. Perisarc strongly
annulated almost throughout, but with occasional smooth areas on some of the
youngest pedicels. Hydranth with 16-21 tentacles. No cnidophores.

88 ANNALS OF THE, SOUTH AFRICAN MUSEUM

Male and female blastostyles on separate stems. Male with no sign of ten-
tacles at any stage; bearing a circle of gonophores which are one- or two-
chambered. Female with a cluster of reduced tentacles which are completely
resorbed later; bearing a circle of 4-6 gonophores which become irregularly
distributed as they mature. Young female gonophore with a bifurcating spadix
surrounding the single egg, but sometimes the two limbs unequally developed
or one of them rudimentary. Old female gonophore oval, with a smooth trans-
parent capsule surrounding the developing embryo.

Nematocysts of two types:

(i) Large macrobasic euryteles, present on hypostome and body of hydranth, on
spadix of female gonophore and on terminal tubercle of male gonophore,
23,4 x 8,4 — 27,6 x 10,8 ». Capsule bean-shaped. Butt coiled longitudinally
in one and a half coils when undischarged, reaching a length of 74 » when
discharged and increasing in diameter smoothly from about 1,2 » proximally
to 2,7 pu distally, armed with spiral bands of spines.

(ii) Small microbasic euryteles, abundant on tentacles of hydranth and else-
where on the body, 6,0 x 3,6 — 9,6 x 3,6 uw. Capsule bean-shaped. Butt
about 6,3 » in length when discharged, bearing spines distally.

Colour: stem pale horn-colour to dark brown; hydranths and female

gonophores orange, male gonophores white.

Variation. From colonies other than the holotype, stems may reach 50 mm and
hydranths may have 15-24 tentacles.

The annulation of the perisarc varies. It may be completely annulated
throughout, or there may be smooth areas on the pedicels and the stem itself.
The annulation is always more strongly developed than in any other South
African species.

Remarks. This species is very close to E. carneum and E. racemosum, both of
which have a bifurcating spadix in the female gonophore. It differs from both
of these in the cnidome and in the annulated stem. It is to this species that
Ritchie’s material from South Africa, described as FE. annulatum, must be
ascribed.

Distribution. Endemic to South Africa.

Distribution in South Africa. Saldanha Bay to Oudekraal, littoral to 46 m.
33/17 (s), 33/18 (is)

Family Bougainvilliidae

Diagnosis. Colonial (rarely stolonial) hydroids with an erect, often branched,
stem enclosed in firm perisarc which may terminate below the hydranth body
or continue over it as a pseudohydrotheca. Hydranth radially symmetrical,
with conical hypostome and one or more definite whorls of filiform tentacles.
Reproduction by fixed sporosacs or medusae.

Adult medusa, when present, with simple tubular mouth, with four or

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 89

\
Ze
24 WG,
A A
sn ag Sao
Ss Aye
CB WH §
»
A ©
A SS
oxo Wee es
ays
Qn» BY
Lae?”
OD I
als RP
=) 2] MA
BY RS
HS BS) hp

LUT ITt
LLY

Fig. 30.

Eudendrium ritchiei, sp. nov., all from holotype. A, stems; B, part of stem with hydranuis and
male blastostyle; C, male blastostyle; D, young female blastostyle; E, old female
blastostyle with spadices shed; F, nematocysts, from left to right three macrobasic
euryteles (two discharged, one undischarged), and two microbasic euryteles (one undis-
charged, one discharged).

Scale: A in cm, F in mm/100, the rest in mm/10.

90 ANNALS OF THE SOUTH AFRICAN MUSEUM

eight usually branched oral tentacles inserted above mouth opening, four
radial canals, solid marginal tentacles often in groups on marginal bulbs, with
or without ocelli, with interradial gonads.

Introduction. The Bougainvilliidae is a fairly well-defined family and the
medusae in particular are very distinctive.

The stem, which may be branched or unbranched, fascicled or unfascicled,
is always coated in firm perisarc, and this perisarc may terminate below the
hydranths as in Clavopsella and Silhouetta or it may extend over the body of
the hydranth as a PSEUDOHYDROTHECA. This structure, unlike the true hydro-
theca of the Thecata, has little form; it adheres closely to the ectoderm of the
hydranth and is often gelatinous with adhering silt granules. The hydranth on
contraction may partially or completely withdraw into it, when it becomes
broader and shorter and often wrinkled. In Bougainvillia (some species) and
in Rhizorhagium* the pseudohydrotheca invests only the lower part of the
hydranth body, but in Bimeria it covers the bases of the tentacles as well, so
that each tentacle has a sheath around its base. In Bimeria rigida the pseudo-
hydrotheca covers the whole body as far as the mouth, and the tentacles almost
to their tips. Since the perisarc below the tentacles is particularly firm the
hydranth in this species has little motility and the tentacles are held out in a
rigid flower-like crown.

The hydranth is of fairly simple construction, though there is a differentia-
tion of the endoderm into an oral region rich in gland cells and a gastral region
below the tentacles. Unlike the Eudendriidae the hypostome is conical. Most
species have a single whorl of filiform tentacles, but there is more than one
whorl in Clavopsella, Silhouetta and Balella. As mentioned on p. 70 these
genera are considered to be primitive in that the tentacles have not yet settled
down into a single whorl, and are included in the Bougainvilliidae on the strength
of the medusa structure of Si/houetta. In Bimeria rigida the tentacles were
described as capitate by Warren (1919a), but there is only an indistinct swelling
of the tips where they escape from the constricting perisarcal sheath.

The gonophores are usually borne on the stem or hydranth pedicels, more
rarely on the hydrorhiza. In Dicoryne they are borne on reduced hydranths,
or blastostyles, which are without mouth or tentacles, but have a prominent
hypostome armed with nematocysts.

The gonophores may be in the form of fixed sporosacs (Bimeria, Rhizor-
hagium, Clavopsella, Garveia) or may be released as free medusae. In Dicoryne
the sporosacs are unusual. Although essentially styloid in structure they are
released and free-swimming with the aid of a coating of cilia and two long
tentacles. The tentacles are not comparable with the marginal tentacles of a
medusa, for they arise from the proximal (attached) end of the sporosac.

Free-swimming medusae are released in Bougainvillia, Balella, Silhouetta
and Thamnostoma. Bougainvilliid medusae are easily recognized, even in their

* For Rhizorhagium the conception and definition of Rees (1938) are adopted.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 9]

young stages, by the oral tentacles which do not arise from the rim of the
mouth but just above, leaving the mouth free. However, at any rate in the genus
Bougainvillia, identification to the species level is difficult for it depends largely
on the structure of the adult medusa, the hydranth generation being very
variable in growth-form and having few reliable diagnostic characters.

KEY TO GENERA
[Genera not represented in South Africa are bracketed]

1. Hydranth with more than one whorl of tentacles 2
— Hydranth with one whorl of tentacles he 4
2. Hydranth with two whorls of tentacles, one at reeiinal end aad one Sond

widest part. Gonophores producing free medusae cA, [Balella]
— Hydranth with 2-4 whorls of tentacles closely approximated around mouth . 3
3. Gonophores producing free medusae Be bs ae ~~ [Sithouetra]
— Gonophores in the form of fixed sporosacs 3 ay ee Clavopsella p. 100
4. Perisarc not continued over tentacles me ae a bs of 5
— Perisarc continued at least part-way over tentacles st : a me 8
5. Producing medusae. Medusa with groups of marginal fentacles Bougainvillia p. 95
— Not producing medusae ae - ¥: S08 ni ss i at 6
6. Producing swimming sporosacs .. ae Re 5 x; ne me p. 101
— Producing fixed sporosacs
7. Stem with one terminal hydrant eat aie. one or two itera ones

Rhizorhagium p. 103

— Stem much-branched or : £3 .. [Garveia]
8. Producing medusae. Medusa with eatery carnal entacles .. [Thamnostoma]
— Producing fixed sporosacs .. ne, Pe - i e .. Bimeria p. 91

Genus Bimeria Wright, 1859

Diagnosis. Colony stolonial or with erect, branching stem. Stem with firm
perisarc which also extends over part or all of the hydranth as a pseudohydro-
theca and sheaths the proximal parts of the tentacles. Hydranth with one whorl
of tentacles. Gonophores in the form of fixed sporosacs, completely invested in
perisarc.

Type species: Bimeria vestita Wright, 1859.

KEY TO SPECIES

1. Estuarine. Stem branching profusely and at least several cm in height B. fluminalis
— Marine. Stem unbranched or slightly branched, under 2 cm in height ae BS ieee?
2. Gonophores normally borne on stem, stem normally branched : .. B. vestita
— Gonophores borne only on hydrorhiza, stem never branched .. a .. 8B. rigida

Bimeria fluminalis Annandale, 1915
Fig. 31E-K

Bimeria fluminalis Annandale, 1915: 111, fig. 10, pl. 9 (figs 3-3a). Millard, 1959a: 309, fig. 4.
Vervoort, 1964: 138.

Diagnosis. Hydrorhiza forming a matted feltwork. Stem unfascicled, flexuous
to stiff, profusely branched in a roughly alternate fashion, reaching a maximum

ANNALS OF THE SOUTH AFRICAN MUSEUM

S
a

AURA

Fig. 31.

Eudendrium ramosum. A and B, male blastostyles; C, young female blastostyles; D, nemato-

cysts, from left to right large microbasic eurytele discharged and undischarged, a small
microbasic eurytele.

Bimeria fluminalis. E, part of colony; F, t.s. female gonophore with egg; G, t.s. female

gonophore with planula; H, t.s. male gonophore; J, hydranth and two young female
gonophores, one with an egg; K, microbasic eurytele.

Abbreviations: e: egg; ect: ectoderm; m: male Spermatogenic cells; p: perisarc; sp: spadix.
Scale: E in cm, D and K in mm/200, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 93

height of 330 mm. Perisarc annulated on base of stem, origin of branches and
hydranth pedicels, continued over base of hydranth body as a thick pseudo-
hydrotheca, of which a very thin extension covers the bases of the tentacles,
covered with adherent silt. Hydranth with 10-12 tentacles, partially retractable
into pseudohydrotheca. :

Gonophores borne singly or in clusters on hydranth pedicels, pedicellate,
completely clothed in perisarc, with no radial canals or tentacle rudiments,
male and female on separate stems. Male ovoid, reaching 0,5 mm in length.
Female ovoid, containing a single egg on one side of the curved spadix, reaching
0,4 mm in length. Egg developing into a planula in situ.

Nematocysts of two types:

(i) Desmonemes, 3,5 x 2,5 wu.

(ii) Microbasic euryteles, 7,0 x 4,5 » (maximum).

Variation. The stem is sometimes straight and sometimes geniculate in the distal
region. The development of the perisarc covering the tentacle bases is variable;
in the type material there is usually a distinct layer, but in the South African
material this part is very poorly developed and usually only discernible in
sections.

Distribution outside South Africa. Tropical Indo-Pacific including India, the
Gulf of Siam and W. Borneo. Type locality: Chilka Lake, Calcutta.

Distribution in South Africa. Richard’s Bay and St. Lucia estuaries, on
mangroves, logs, etc. 28/32 (I)

Bimeria rigida Warren, 1919
Fig. 32A-—B
Bimeria rigida Warren, 1919a: 1, figs 1-2, pls 1-2.

Diagnosis. Colony growing on weed. Hydrorhiza with clasping processes and
with internal thickenings of perisarc in some areas. Stem unfascicled,
unbranched, narrower at base than at distal end, bearing a single terminal
hydranth, reaching a maximum height of 3 mm. Perisarc indistinctly annulated,
especially at base and distal end, continued over body of hydranth as a well-
developed pseudohydrotheca. Pseudohydrotheca in proximal region stiff,
longitudinally ridged and continued along the tentacles almost to the tips;
in distal region thick and soft, completely enveloping the conical hypostome,
with adherent silt. Hydranth about 0,6 mm in height to tip of hypostome, with
16-33 stiff tentacles held alternately elevated and depressed and swollen at the
tips where they emerge from the perisarc, with an ectoderm-lined chamber
distal to the mouth, with four endodermal ridges in hypostome.

Gonophores borne on hydrorhiza, pedicellate, completely enclosed in
perisarc. Male oval to spherical, reaching 0,5 mm in length, with no radial
canals or tentacle rudiments, with branching spadix. Female unknown.

94 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 32.

Bimeria rigida, A, hydranth; B, l.s. male gonophore redrawn from Warren (1919a).

Bimeria vestita. C, fertile stems; D, contracted hydranth showing perisarcal sheaths round
tentacles; E, F and G, stages in development of female gonophore, the last two drawn
without the perisarcal coat; H, male gonophore.

Scale in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 95

Nematocysts: microbasic euryteles, 7,2 x 3,0 — 9,0 x 4,2 yu.
Colour: pale horn-colour.

Distribution. Endemic to South Africa. Type locality: Port St. Johns.
Distribution in South Africa. Transkei coast, in rock pools. 31/29 (1), 31/30 (1,

Bimeria vestita Wright, 1859
Fig. 32C-H

Bimeria vestita Wright, 1859: 109, pl. 8 (fig. 4). Allman, 1872: 297, pl. 12 (figs 1-3). Millard,

1966a: 449, fig. SA-F.
Leuckartiara vestita f. nana: Vervoort, 194665: 294.
Diagnosis. Colony usually epizootic on other hydroids. Stem unfascicled,
delicate, either unbranched and with one terminal hydranth, or branching,
and rarely rebranching, in a roughly alternate manner, reaching a maximum
height of 18 mm but usually much less. Perisarc annulated on base of stem,
origin of branches and at other irregular intervals, continued over hydranth
body and base of hypostome and forming distinct sheaths over the basal parts of
the tentacles, often covered with adherent silt. Hydranth with 10—20 tentacles.

Gonophores borne on stem and branches, rarely on hydrorhiza, pedi-
cellate, invested in thick gelatinous perisarc, with no radial canals or tentacle
rudiments, male and female on separate colonies. Male elongate-oval with
branching spadix, reaching 0,3 mm in length (without perisarc). Female oval to
spherical, containing one terminal ovum, reaching 0,2 mm in length (without
perisarc). Egg developing into a planula in situ.

Variation. The South African material is not so richly branched as some of
that described from other areas.

Distribution. Cosmopolitan. Type locality: Firth of Forth, U.K.

Distribution in South Africa. All round the coast from the Orange River on the
west to Inhaca on the east, 5-88 m. 28/16 (s), 34/18 (s), 34/20 (s), 34/21 (s),
34)221(S), 33/25, 33/26 (S)333/27 (S); 26) 32s)

Genus Bougainvillia Lesson, 1836

Diagnosis. Colony erect with branching stem, or (rarely) stolonial. Stem with
firm or soft perisarc which often extends over the base of the hydranth as a
pseudohydrotheca but never covers tentacle bases. Hydranth with one whorl of
filiform tentacles. Gonophores developing into free medusae.

Medusa with four unbranched radial canals and a circular canal, four
dichotomously branched, capitate oral tentacles inserted above mouth opening,
marginal tentacles all alike, arising in groups from four marginal bulbs, with
ocelli.

Type species: Bougainvillia macloviana Lesson, 1836.

96 ‘ANNALS OF THE SOUTH AFRICAN MUSEUM

KEY TO SPECIES

1. Perisarc strongly wrinkled throughout. Colony epizootic on parasitic isopods
B. meinertiae

— Perisarc smooth for the most part, but wrinkled or annulated in certain me Not
epizootic on parasitic isopods = : 2

2. Stem low-lying, delicate, never fascicled, aubraictied or wnat tances Mea
medusa with well-developed peduncle, oral tentacles branching about 8 times, marginal
bulbs with about 53 tentacles ae : Be B. macloviana

— Stem erect, stiff, fascicled in larger Polonies branching pretncely, Mature medusa with
very slight peduncle, oral tentacles branching 1-6 times, marginal bulbs with 3-9
tentacles ae aS Se Re ts ae ss a Ae .. B. ramosa

Bougainvillia macloviana (Lesson, 1830)
Fig. 33A—C

Cyanaea bougainvillii Lesson 1830: 118, pl. 14 (fig. 3).
Bougainvillia macloviana: Russell, 1953: 173, figs 86-88. Millard, 1959b: 242, fig. 1A—C.

Vannucci & Rees, 1961: 69. Edwards, 1966: 147, 149. Millard & Bouillon, 1973: 22,
eae maclovianus: Vanhoffen, 1910: 284, fig. 10.
Diagnosis. Hydrorhiza forming a branching network. Stem slender, unfascicled
and low-lying, unbranched or branching irregularly, narrower at base than at
summit, reaching a maximum height of 8 mm. Perisarc smooth or wrinkled,
more deeply corrugated on base of stem and origins of branches, continued over
base of contracted hydranth as a gelatinous pseudohydrotheca. Hydranth with
8-12 tentacles.

Medusa-buds arising singly from hydrorhiza, stem or branches, larger than
hydranths, shortly stalked, spherical, enclosed in perisarc, reaching a diameter of
0,4 mm (without perisarc), before liberation with four unbranched, capitate
oral tentacles and four marginal bulbs, each of the latter with two ocelli and
two marginal tentacles.

Adult medusa globular, with moderately thick jelly. Outer surface of bell
with interradial furrows. Stomach short with large peduncle and four perradial
lobes along peduncle. Oral tentacles four, branching dichotomously about eight
times. Marginal bulbs V-shaped, each bearing about 53 tentacles in a double
row and as many ocelli. Gonads interradial, hanging in folded bands along the
stomach lobes. Reaching 9,0 mm in depth and 8,2 mm in diameter. Colour:
marginal bulbs, gonads and stomach reddish-brown, ocelli black, the rest
transparent.

Nematocysts of two kinds, present in hydranths and medusae:

(i) Desmonemes. Capsule ovoid, thread in 1% coils. Smaller in hydranth
(3,5 x 2,0 — 4,0 x 3,0 ») than in medusa (6,3 x 3,6 — 8,1 x 4,1 p).

(ii) Microbasic euryteles. Capsule bean-shaped, butt about 2 length of capsule.
D4 X27 — 7,2 X36 ee

Variation. The measurements and tentacle numbers given above are from South
African material only. In material from elsewhere, however, the hydranth may
have as many as 16 tentacles and the medusa-buds may reach a diameter of

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 97

0,75 mm and have up to five marginal tentacles on each bulb at liberation.
Similarly the adult medusa may reach a depth of 15 mm and may have up to 65
tentacles on each marginal bulb.

Distribution outside South Africa. Hydranth: Kerguelen, Seychelles. Medusa:
Subantarctic, North Sea, Firth of Clyde. Type locality: Falkland Islands.

Distribution in South Africa. Hydranth: Saldanha Bay, Table Bay and off Still
Bay, 15-73 m and on ships’ hulls. Medusa: Saldanha Bay, Langebaan Lagoon.
33/18 (s, h), 34/21 (s)

Bougainvillia meinertiae Jaderholm, 1923

Fig. 33D
Bougainvillia meinertiae Jaderholm, 1923a: 3, fig. 1. Vannucci & Rees, 1961: 72.

Diagnosis. Colony epizootic on the parasitic isopod Codonophilus (Meinertia)
imbricata (Fabr.) which lives in the buccal cavity of fish. Stem erect, fascicled
at base, branching freely, reaching a maximum height of 10 mm. Perisarc thick,
especially near base, very strongly and irregularly wrinkled throughout, con-
tinued over base of hydranth body as a thin and smooth pseudohydrotheca into
which the hydranth can be partially retracted. Hydranth with about 14 tentacles.

Medusa-buds arising from hydranth pedicels, smaller than hydranths,
sessile or shortly stalked, pear-shaped to spherical, about 0,16 mm in diameter.
Marginal tentacles probably eight.

Remarks. This material differs only from that assigned to B. ?ramosa in the more
extensive wrinkling of the perisarc. In view of its unusual habitat it is retained as
a separate species until more material is forthcoming.

Distribution. Endemic to South Africa.

Distribution in South Africa. Agulhas Bank east of Cape Agulhas in 73 m (type
locality). 34/20 (s), 34/21

Bougainvillia ?ramosa (van Beneden, 1844)
Fig. 33E-H

Eudendrium ramosum van Beneden, 1844: 57, pl. 4 (figs 10-13).

Bougainvillia ramosa: Allman, 1872: 311, pl. 9 (figs 5-7). Stechow, 1925a: 411. Russell, 1953:
153, fig. 74, pl. 8 (fig. 1), pl. 9 (figs 4-5). Millard, 1959b: 244. Vannucci & Rees, 1961: 82.
Edwards, 1966: 145.

Bougainvillia fruticosa: Allman, 1872: 314, pl. 9 (figs 1-4).

Bougainvillia muscus: Allman, 1872: 317, pl. 10 (figs 1-3).

Bougainvillia van Benedeni: Jaderholm, 1909: 46, pl. 3 (fig. 5).

Bougainvillia sp.: Millard, 1966a: 451. Millard, 1968: 255.

Diagnosis. Stem erect, unfascicled or weakly fascicled, branching profusely
and irregularly, narrower at base than at summit, reaching a maximum height
of 53 mm. Branches forming an acute angle with the stem. Perisarc smooth for

98 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 33.
Bougainvillia macloviana. A, nematocysts from medusa: desmoneme and microbasic eurytele;
B, fertile stem; C, adult medusa.
Bougainvillia meinertiae. D, part of fertil
Bougainvillia 2?ramosa. E, fertile colony;
H, newly liberated medusae.

Scale: C and E in mm, A in mm/100, the rest in: mm/10

e stem, redrawn from Jaderholm (1923a).
F, hydranth showing stolonization; G, medusa-buds;

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 99

the most part, wrinkled, corrugated or distinctly annulated on origins of
branches and on part or all of final pedicels, continued over base of hydranth
body as a pseudohydrotheca. Stolonization common on all parts of colony.
Hydranth with 9-15 tentacles.

Medusa-buds arising in groups from hydranth pedicels and smaller
branches, smaller than hydranths, shortly stalked, pear-shaped when young.

Medusa at liberation subglobular, about 0,4 mm in diameter, with four
capitate, unbranched oral tentacles and four marginal bulbs, each of the latter
with two marginal tentacles and two ocelli.

Adult medusa of B. ramosa (not recorded from South Africa) semiglobular,
with thick jelly. Stomach short, sometimes with very slight peduncle. Oral
tentacles four, branching dichotomously once or twice (rarely up to six times).
Marginal bulbs small and oval, each bearing 3-9 tentacles (usually 4-5) and as
many ocelli. Gonads interradial, extending adradially along radial canals to a
slight extent. Reaching 3-4 mm in depth and diameter.

Nematocysts of two kinds:

(i) Desmonemes, 3,6 x 2,5 — 4,2 X 3,2 pz.

(ii) Microbasic euryteles, 5,9 x 2,7 — 8,1 x 3,6 uw. Capsule elongate bean-shaped.

Colour: hydranth creamy white with pink endoderm.

Variation and remarks. B. ramosa is very variable in its growth-form and the
several European forms have been described under different specific names. In
f. musca the stem is short, reaching about 15 mm, unfascicled and little branched.
In f. fruticosa the stem is tall, reaching about 50 mm, fascicled and much-
branched; the pseudohydrotheca covers about one-third of the hydranth and is
membranous and corrugated when contracted. F. ramosa is similar but the
pseudohydrotheca forms a thin but distinct cup into which the hydranth can
be completely withdrawn. F. vanbenedenii is characterized by the abundant
stolonization; the stem is fascicled or unfascicled and irregularly branched.
The South African material covers most of these variations.

Although young medusae have been released in the laboratory, they have
not been reared to a stage where it is possible to be certain of the identification.
For this reason, and since no adult medusae of B. ramosa have as yet been
recorded from the South African coast, the identification is provisional. There
is a possibility of confusion with B. fulva which has been recorded from the
East coast of Africa (Kramp 1965; Bouillon personal communication) and
whose hydroid stage is as yet unknown.

Distribution outside South Africa. ‘Probably in all temperate and subtropical
regions’ (Vannucci & Rees 1961). Type locality: Ostend.

Distribution in South Africa. Langebaan Lagoon to Port Elizabeth, littoral to
126 m and on ships’ hulls. 33/18 (1, h), 34/18 (s, h), 35/19 (s), 34/20 (s), 35/20
(d), 34/21 (s), 34/22 (s), 34/23 (1, s, d), 33/25

100 ANNALS OF THE SOUTH AFRICAN MUSEUM

Genus Clavopsella Stechow, 1919

Diagnosis. Stem erect, branched or unbranched, with firm perisarc terminating
at base of hydranth. Hydranth with tentacles in two to four closely alternating
verticils immediately below hypostome. Gonophores in the form of fixed sporo-
sacs or degenerate medusae without marginal tentacles, radial canals, mouth or
oral tentacles.

Type species: Pachycordyle weismanni Hargitt, 1904.
One species only from South Africa.

Clavopsella navis (Millard, 1959)
Fig. 34A—D

Rhizorhagium navis Millard, 19596: 244, fig. 2.
Clavopsella quadranularia Thiel, 1962: 227, figs 1-28. Thiel, 1970: 482.
Diagnosis. Hydrorhiza creeping. Stem unbranched (in South African material),
bearing a single terminal hydranth, reaching a maximum height of 5 mm. Peri-
sarc often wrinkled, especially near base, terminating below hydranth.

Hydranth with 8-16 tentacles arranged in 2-4 closely alternating verticils
immediately below hypostome, 0,4-1,3 mm in length from perisarc.

Gonophores in the form of fixed sporosacs, borne in an irregular spiral on
stem below hydranth, pedicellate, completely clothed in perisarc, without
tentacle rudiments or radial canals. Female containing about eight eggs usually
in one tier, which develop into planulae in situ.

Nematocysts of two types:

(i) Desmonemes, 3,5 x 2,0 pu

(ii) Microbasic euryteles, 6,5 x 3,0 ». Capsuie bean-shaped, butt about two-

thirds length of capsule.

Colour: creamy white, with pink tinges in hypostome of hydranth and

spadix of gonophore. .

Variation and remarks. Re-examination of the type material of this species
established the fact that in the larger hydranths the tentacles are arranged in
as many as four alternating verticils, whereas in the smaller ones (which may be
sexually mature) there are only two. It thus becomes necessary to transfer the
species from Rhizorhagium to Clavopsella. y

In 1962 Thiel published his excellent account of Clavopsella quadranularia
from the Kiel Canal. This species differs from C. navis in only a few points,
mainly in the fact that in the centre region of well-established colonies the stem
branches to produce lateral hydranths of the first and second order. In its
maximum development, thus, the colony is a raceme and reaches a height of.
30 mm. Other minor differences are the larger number of hydranth tentacles
(14-24) and slightly larger desmoneme nematocysts (4-6 x 3-4 y). Thiel also
discussed the systematic position of Clavopsella and the closely related Balella
and established a new family, the Clavopsellidae, for their inclusion.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 101

In 1972 Dr Thiel and the author had the opportunity of comparing material
and we agreed that the species were synonymous, the South African material
heing a younger colony in its first phase of reproduction.

Later, Millard & Bouillon (1973) established the genus Sil/houetta for a
species with several whorls of tentacles and bougainvilliid medusae, and
expressed the opinion that all genera with more than one whorl of tentacles
should be included in the Bougainvilliidae.

It is possible that C. navis has been transported from one to the other of its
widely separated localities on ships’ hulls. The variations described by Thiel
can be expected to occur in South Africa when a well-established colony is
discovered.

Distribution outside South Africa. Kiel Canal.

Distribution in South Africa. One record only, from a ship’s hull in Table Bay
(type locality). 33/18 (h)

Genus Dicoryne Allman, 1859

Diagnosis. Stem erect, branched or unbranched, with conspicuous perisarc
terminating on or below hydranth body but never continued over tentacle
bases. Hydranth with one whorl of filiform tentacles. Gonophores borne on
reduced hydranths (blastostyles) and released as free-swimming, ciliated
sporosacs.

Type species: Eudendrium confertum Alder, 1856.
One species only from South Africa.

Dicoryne conferta (Alder, 1856)
Fig. 34E-J

Eudendrium confertum Alder, 1856: 354, pl. 12 (figs 5-8).
Dicoryne conferta: Allman, 1872: 226, 293, pl. 8. Jaderholm, 1909: 47, pl. 3 (fig. 6).
?Dicoryne sp.: Vervoort, 1972: 16.
Diagnosis. Colonies reaching a height of 25 mm growing on gastropod shells
occupied by hermits (including ?Anapagurus hendersoni Barnard). Hydrorhiza
reticulate, without spines, clothed with perisarc. Stem unbranched or branching
irregularly, unfascicled, increasing in diameter from base to distal end, clothed
with thick perisarc which terminates below hydranth. Branches leaving stem at
an acute angle. Perisarc wrinkled, especially near base. Hydranth with one
circle of 10—13 filiform tentacles.

Blastostyles borne on stem or direct from hydrorhiza, in the form of modi-
fied hydranths without mouth or tentacles but with a long and extensile hypo-
stome armed with nematocysts, bearing gonophores in a dense cluster below
hypostome, male and female on separate stems. Gonophores released as free-
swimming, ciliated sporosacs with two tentacles arising from proximal (i.e.
originally attached) end. Female containing two eggs.

ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 34.
Clavopsella navis. A, part of female colony; B, mature female gonophore; C, female gonophore

after release of eggs, eggs segmenting; D, later stage with advanced planulae.

Dicoryne conferta. E, hydranth: F, female blastostyle; G, female gonophore in semi-
diagrammatic half-section; H, male gonophore; J, stems.

Abbreviations: ¢: endoderm; g: germ cells; p: perisarc; s: spadix; sc: subumbrellar cavity;

t: tentacle.
Scale: A and J in mm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 103

Nematocysts of at least two kinds:

(i) Small ones on hydranth tentacles, 4,8 «x 2,4 — 5,4 x 2,7 pn.
(ii) Large ones on blastostyle, 14,4 x 4,8 yu.

Variation. When the hydranth is contracted the perisarc around its base becomes
compressed and bulging, partly covering the hydranth body as a pseudo-
hydrotheca.

Although each female gonophore normally contains two eggs of equal
size placed in a plane at right angles to that of the tentacles, there may be only
one terminal egg or two of very unequal size.

Distribution outside South Africa. North Atlantic from the Arctic to the Medi-
terranean. Type locality: Cullercoats, U.K.

Distribution in South Africa. Agulhas Bank, from False Bay to Mossel Bay,
80-100 m. 34/18 (s), 34/21 (s), 34/22 (d)

Genus Rhizorhagium M. Sars, 1877

Syn. Wrightia Allman, 1872.

Parawrightia Warren, 1907.

Gravelya Totton, 1930.
Diagnosis. Stem erect, bearing a single terminal hydranth and, rarely, one or
two lateral ones as well, with firm perisarc continued over the base of the
hydranth body as a pseudohydrotheca but never investing the tentacle bases.
Hydranth with one whorl of filiform tentacles. Gonophores in the form of
fixed sporosacs, arising either from the hydrorhiza or from the stem.

Type species: Rhizorhagium roseum M. Sars, 1877.
One species only from South Africa.

Rhizorhagium robustum (Warren, 1907)
Fig. 35A—B

Parawrightia robusta Warren, 1907a: 187, figs 1, 2B, 3-4, pls 33-34.
Rhizorhagium robustum: Millard, 1966a: 452.
Diagnosis. Hydrorhiza creeping on weeds and sponges, reticular, giving rise
to erect stems reaching a maximum height of 12 mm, each bearing one terminal
hydranth and sometimes one or two lateral ones. Perisarc irregularly annulated
on stem, especially near base, continued over base of hydranth as a pseudo-
hydrotheca and terminating in a shallow groove below the tentacles, usually
with adherent silt. Hydranth with 13-22 tentacles, reaching a height of about
1,1 mm, not completely retractable into pseudohydrotheca.

Gonophores borne singly on stem below hydranth, pedicellate, completely
clothed in perisarc, with radial canals but no tentacle rudiments, male and female
on separate colonies. Male elongate-oval, female subspherical. Eggs developing
into planulae in situ.

Nematocysts 5,0 x 2,9 — 5,6 x 2,9 yu.

104 ANNALS OF THE SOUTH AFRICAN MUSEUM

Colour: endoderm red, other living parts translucent white, perisarce pale
to dark brown.

Distribution outside South Africa. South-east Madagascar. Type locality: Park
Rynie, South Africa.

Distribution in South Africa. East London to Natal, littoral. 33/27 (1), 30/30 (1)

Family Hydractiniidae

Diagnosis. Colonial hydroids with a stolonial habit and polymorphic hydranths,
typically with gastrozooids, gonozooids and dactylozooids. Skeleton of chitinous
perisarc or calcium limited to hydrorhiza and often forming spines. Hydranths
sessile and naked; with one or more whorls of filiform tentacles, if more than
one then concentrated around hypostome. Reproduction by fixed sporosacs or
medusae.

Medusa, when present, with four or more solid marginal tentacles not in
groups, mouth with four lips elongated to form four or eight simple or slightly
branched oral arms with terminal clusters of nematocysts, four radial canals,
with gonads on interradial walls of stomach or on proximal portions of radial
canals as well.

Introduction. Among the Hydractiniidae the subdivision into genera has been
the subject of much discussion. The arguments cannot be reproduced here, but
the works of Stechow (1923c), Kramp (1932), Iwasa (1934), Rees (1962) and
Bouillon (1971) may be consulted. In this paper the definitions of Bouillon
(1971: 351) for the genera Hydractinia, Podocoryne and Stylactis are adopted.
In addition the genera Clavactinia and Hydrocorella are represented in South
Africa.

All the Hydractiniidae have stolonial colonies. They are also polymorphic,
and there occur gastrozooids, gonozooids, usually smaller than the gastrozooids
and with fewer tentacles, and dactylozooids, often confined to the edge of the
colony. Dactylozooids may take the form of spiral zooids or tentaculozooids.

The nature of the hydrorhiza has been the cause of most of the dissension
on generic limits. It arises as a system of perisarc-covered stolons which anasto-
mose to form a reticulum, and tend to coalesce with one another. In Stylactis
the tubes are usually separate and are always covered with firm perisarc. In
Hydractinia, Podocoryne and Clavactinia the superficial layer of perisarc over the
coalesced tubes tends to disappear leaving a layer of naked ectoderm over the
surface of the mat-like hydrorhiza. In young colonies, or at the edge of older
ones, this process may be incomplete, so that there is then liable to be confusion
with Stylactis, but as Kramp (1932) states, it is the potentiality for producing the
layer of naked coenosarc which is important. Horny spines arising from the
perisarc protrude through the coenosarc in many species.

In Hydrocorella the hydrorhiza secretes a calcareous skeleton which rises
into a fantastic arrangement of spines and pillars, the whole covered by naked

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 105

Fig-3).

Rhizorhagium robustum. A, stem with two hydranths; B, two hydranths, one with a sporosac,
redrawn from Warren (1907a, as Parawrightia robusta).

Clavactinia multitentaculata, sp. nov. C, colony with gastrozooids, male gonozooids and spines,
from holotype: D, spiral zooids from holotype; E and F, l.s. and t.s. young female
gonophore; G, t.s. male gonophore from holotype.

Scale: A, B and C in mm, the rest in mm/10.

106 ANNALS OF THE SOUTH AFRICAN MUSEUM

coenosarc as in the above-mentioned genera. A calcareous skeleton is unusual
among the hydroids and according to Stechow (1925a) provides a link with the
Stylasteridae.

Most of the genera have a single whorl of tentacles on the hydranth but,
among these, species with many tentacles may have alternate ones slightly dis-
placed, giving the appearance of two closely alternating rows. In Clavactinia
there are several such whorls and, as was mentioned on p. 70, this is probably
a primitive condition for the family.

Reproduction is by fixed sporosacs or free medusae and all stages between
these two extremes may occur. It has been claimed that because of intermediate
conditions it is not possible to separate genera on this basis. However, it is felt
that there is a big difference between the highly developed medusae of a typical
Podocoryne and the degenerate medusae found in some species of Hydractinia.
The intermediate stages are, as elsewhere in this work, classified as “sporosacs’.

One of the most interesting features of the Hydractiniidae is the adoption
of an epizootic life on the shells of hermits or gastropods. The advantage of this
type of life appears to be the ability to inhabit niches otherwise not available,
e.g. Hydractinia kaffraria in the mud of estuaries and H. altispina in sandy tidal
pools, where the hydranths are not only provided with transport but are held
clear of the substratum. A list of hosts carrying epizoites will be found on p. 23.

KEY TO GENERA
[Genera not represented in South Africa are bracketed]

1. Hydrorhiza with calcareous skeleton a Be e a Hy arte pons
— Hydrorhiza without calcium in the skeleton be x. a ; 2;
2. Gastrozooids with several whorls of tentacles .. Clovacnon p. 106
— Gastrozooids with only one whorl of tentacles, which may be ‘displaced alter-

nately to form two apparent whorls Re: ae a ag 3
3. Gonozooids producing free medusae 2 ae Sie ie [Podocorynel
— Gonozooids producing fixed sporosacs Bs se
4. Hydrorhiza covered with a layer of naked coenosarc .. < Beene p. 108

Hydrorhiza reticular, the tubes covered with firm perisarc; no naked coenosarc
Stylactis p. 118
Genus Clavactinia Thornely, 1904

Diagnosis. Hydrorhiza of anastomosing perisarc-covered tubes coalesced into a
basal incrusting layer and covered by a layer of naked coenosarc, often bearing
spines. Gastrozooids with several close-set whorls of tentacles. Gonophores in
the form of fixed sporosacs.
Type species: Clavactinia gallensis Thornely, 1904.

One species only from South Africa.

Clavactinia multitentaculata sp. nov.

Fig. 35C-G
Hydractinia sp. Millard, 1968: 255.

Holotype. A male colony growing on the shell of the gastropod Melapium

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 107

lineatum (Lamarck) occupied by a hermit, Dardanus arrosor (Herbst). Off
Natal, approximately 29°54’S/31°11’E, 99 m. Cat. no. SAM—H389.

Description of holotype. Hydrorhiza a network of coalesced perisarcal tubes
covered by a layer of free coenosarc, giving rise to numerous smooth, hollow
spines 0,4—-0,6 mm in length.

Gastrozooids with many tentacles in ae close-set verticils. The number
of tentacles varies according to the size (and presumably the age) of the gastro-
zooids. In the larger polyps they are almost impossible to count. Counts made by
cutting off the tentacles and counting the tips yielded numbers of 65, 84 and 91.
More approximate counts gave numbers ranging from 42-++ to 73. The normal
adult number is thus well over 40. Larger gastrozooids are longitudinally
marked, shown by sections to be due to ridging of the endoderm.

A few spiral zooids present in local areas around the opening of the host
shell.

Male gonozooids smaller and more slender than gastrozooids, with mouth
and 7-13 tentacles, bearing 3-4 gonophores in the form of fixed sporosacs.
Sections show no endodermal ridging. Sporosac spherical, reaching 0,66 mm in
length and 0,68 mm in diameter, with four radial canals and a circular canal.
Spadix central. Spermatogenic cells divided into four compartments alternating
with the radial canals. Sections reveal the presence of a thickened and inturned
‘umbrella’ margin and a depressed velar plate. The largest sporosacs are so
swollen with spermatogenic cells that the cavities of the spadix and the radial
canals are not visible. These structures are, however, quite distinct in the younger
ones.

Information from other specimens. Colonies other than the holotype have been
found on the gastropods Astraea tayloriana (Smith) and Turbo sarmaticus
Linnaeus.

Female gonozooids are similar to the male, though with only 5-8 tentacles.
Each bears two sporosacs, one large and one small, at about two-thirds of its
length. Sporosac spherical, the largest reaching 0,70 mm in length and 0,68 mm
in diameter, though possibly not quite mature, with four radial canals and a
circular canal and four minute tubercles at margin. Spadix central, with a
quadrate lumen, bearing a single layer of eggs arranged in four compartments
alternating with the radial canals. Eggs small and numerous, estimated to be
about 300 in number (about 20 longitudinal rows with about 15 to a row).
This colony with no spiral zooids, but with a few scattered tentaculozooids.
Spines not so numerous as in the holotype.

A living male colony showed that mature Sears reach 8,0 mm
when fully extended; young hydranths have only one whorl of tentacles but
the number increases with age. Extended gonozooids reach a maximum length
of 3,2 mm; those with young gonophores have as many as 16 tentacles, but
those with mature gonophores often have only one or two or none at all,
apparently due to reproductive exhaustion.

108 ANNALS OF THE SOUTH AFRICAN MUSEUM

Nematocysts of two kinds:

(i) Desmonemes, 5,4 x 3,0 — 7,2 x 3,6 u. Capsule oval; abundant on tentacles.
Thread in four coils when discharged.

(ii) Microbasic euryteles, 9,0 x 2,4 — 13,8 x 4,2 uw. Capsule banana-shaped;
abundant on hypostome.

Colour: orange throughout.

Remarks. C. multitentaculata differs from C. gallensis, the type species of
Clavactinia, in the larger size of the gastrozooids and greater number of tentacles,
in the presence of radial canals in the sporosacs and in the greater number of
eggs in the female sporosac.

Distribution. Endemic to South Africa.

Distribution in South Africa. False Bay and Natal only with certainty, in 15-99 m,
but probably more widespread. 34/18 (s), 29/31 (s)

Genus Hydractinia van Beneden, 1841

Diagnosis. Hydrorhiza of anastomosing perisarc-covered tubes coalesced into a
basal incrusting layer and covered by a layer of naked coenosarc, often bearing
spines. Gastrozooids with tentacles in one whorl (or rarely two closely alter-
nating whorls). Gonophores in the form of fixed sporosacs.

Type species: Hydractinia lactea van Beneden. 1844.

KEY TO SPECIES
(Doubtful species not included, for these see p. 115)

1. Spines present, smooth se ae ae 5 ar o a ae Pere
Spines absent . aes : 3

2. On Thais squamosa. Spines reacting 1 mm. Sporosacs Tihont tentacles aaale divided
into 4 compartments, female with about 32 eggs in about 4 tiers ne H. altispina

— On hermit shells. Spines reaching 0,6 mm. Sporosacs without tentacles, male not
divided, female with 5—13 eggs in 2 tiers : H. diogenes

— On Nassa speciosa. Spines reaching 0,4 mm. Sporosacs with 4-8 marginal tentacles and
external marsupium, male divided into 4 compartments, female with 20-40 eggs in
3-6 tiers = ie os H. marsupialia

3. On Nassa kraussiana. Gasttoreoins ee Penele sporosacs with 21-32 eggs in about
4tiers .. S H. kaffraria

— On weed. Gastrozooid mouth blocked by endoderm. Female sporosacs with over 50
eggs in about 7 tiers A ee ie e a; ee ae H. canalifera

Hydractinia altispina Millard, 1955
Frontispiece; Fig. 36A—D
?Hydractinia sp. Broch, 1914: 24 (material from South West Africa).
Hydractinia altispina Millard, 1955: 215, fig. 1.
Diagnosis. Colonies epizootic on the gastropod Thais squamosa (Lamarck).
Hydrorhiza covered with a layer of naked coenosarc, bearing spines, gastro-
zooids and gonozooids. Spines smooth, hollow and long, 0,4-1 mm. Gastro-

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 109

zooids reaching 4 mm, with 5-12 tentacles, long and short alternating. Gono-
zooids much smaller than gastrozooids, reaching 0,8 mm, with 3-5 very short
tentacles, bearing several sporosacs usually on the basal region. No dactylo-
zooids.

Sporosacs with four radial canals and a circular canal, but no marginal
tentacles, bearing the sexual products around a central spadix, male and female
on separate colonies. Male spherical, reaching 0,4 mm in diameter, with sperma-
togenic cells divided into four compartments separated by the radial canals.
Female oval, reaching 0,5 mm in diameter, containing about 32 eggs in about
four tiers.

Colour: Colony orange throughout, gastrozooids sometimes paler.

Nematocysts: desmonemes. 6,0 < 3,6 uw; microbasic euryteles, 8,4 x 2,4 —
13,8 x 5,4 uw.

Distribution. Endemic to South Africa. Type localities: False Bay and Lambert’s
Bay.

Distribution in South Africa. Liideritz Bay to False Bay, littoral to 24 m. 26/15
(1), 28/16 (s), 32/18 (I, s), 33/18 (1), 34/18 (J, s)

Hydractinia canalifera Millard, 1957
Fig. 36E-G

Hydractinia canalifera Millard, 1957: 179, fig. 1.

Diagnosis. Colony growing on weed. Hydrorhiza covered with a layer of naked
coenosarc in centre of colony, of separate perisarc-covered tubes at periphery,
bearing gastrozooids, gonozooids and tentaculozooids, but no spines. Gastro-
zooid reaching 3,2 mm, with 10-14 tentacles, with mouth and hypostome plug-
ged with endodermal tissue; hydrocaulus with a strongly marked, narrow,
central lumen. Gonozooid smaller than gastrozooid, reaching 1,3 mm, with
6-9 tentacles, bearing 4-5 sporosacs on upper half of hydrocaulus. Tentaculo-
zooids sparse, scattered.

Female sporosac ovoid, reaching 0,5 mm in diameter, with four radial
canals and a circular canal (visible only when young), no tentacle rudiments,
containing over 50 eggs in about seven tiers around a central spadix. Male
Sporosac unknown.

Distribution. Endemic to South Africa.

Distribution in South Africa. Known only from the type locality: Clovelly,
False Bay, littoral. 34/18 (1)

Hydractinia diogenes Millard, 1959
Fig. 37A—D
Hydractinia diogenes Millard, 1959a: 305, fig. 2. Millard & Bouillon, 1974: 20.

Diagnosis. Colonies epizootic on shells of the hermit, Diogenes costatus (Fabr.).
Hydrorhiza covered with a layer of naked coenosarc, bearing spines, gastro-

110 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 36.

Hydractinia altispina. A, various zooids: two gastrozooids, two female gonozooids, one male
gonozooid and two spines; B, microbasic eurytele and desmoneme; C, t.s. male sporosac;
D, I.s. female sporosac.
Hydractinia canalifera. E, part of colony, with two gastrozooids, two female gonozooids and
a tentaculozooid; F, l.s. young female sporosac showing radial and circular canals;
G, l.s. mature female sporosac.
Scale: A in mm, B in mm/100, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA Py

zooids, gonozooids and spiral zooids. Spines smooth, hollow and of medium
length (0,5-0,6 mm). Gastrozooids 2-3 mm in length, with 10-26 tentacles.
Gonozooids generally smaller than gastrozooids, with 5-15 tentacles often
reduced to mere stumps, bearing a ring of up to six sporosacs. Spiral zooids
sometimes present, 2-3 mm in length, with terminal battery of nematocysts.
Sporosacs spherical, reaching 0,5 mim in length and breadth, male and
female on different colonies, with four radial canals (but visible in female only)
and a circular canal, bearing the sexual products around a central spadix.
Female containing 5—13 eggs in two tiers. Male not divided into segments.
Nematocysts: desmonemes, 5,0 < 3,5 uw; microbasic euryteles, 9,0 x 4,0 yw.

Distribution. Endemic to South Africa.

Distribution in South Africa. East coast, Inhaca to Morrumbene (type locality),
in shallow water. 26/32 (s), 23/35 (s)

Hydractinia kaffraria Millard, 1955
Fig. 37E-G

Hydractinia kaffraria Millard, 1955: 217, fig. 2. Millard, 1966a: 457, fig. 6. Schmidt, 1972:
Saepla iG:

Diagnosis. Colonies epizootic on the gastropod Nassa kraussiana (Dunker).
Hydrorhiza covered with a layer of naked coenosarc, bearing gastrozooids,
gonozooids and tentaculozooids, but no spines. Gastrozooid reaching 2,0 mm,
with 8-15 tentacles. Gonozooid smaller than gastrozooid, reaching 1,1 mm,
with 5-12 tentacles, bearing sporosacs below the tentacles. Tentaculozooids
sparse and scattered, reaching 3,0 mm.

Sporosacs subspherical, with four radial canals and a circular canal, with
rudimentary marginal tentacles, bearing the sexual products around a central
spadix, male and female on separate colonies. Male reaching 0,6 mm in diameter,
spermatogenic cells not divided into compartments. Female reaching 0,9 mm
in diameter, containing 21-32 eggs in about four tiers.

Observations on living material. Although the sporosacs have some medusoid
structures, the sexual products are released while they are still attached and there
is no free-swimming life. Powerful pulsations of the whole bell in the male,
and of the area around the aperture in the female, expel the spermatozoa and
eggs respectively. This species is easily kept in aquarium tanks,

Distribution outside South Africa. Red Sea. Type localities: Breede River and
Keiskama River estuaries, South Africa.

Distribution in South Africa. In estuaries only, from the Breede River on the
south coast to Durban Bay in Natal. 34/20 (s), 34/23 (s), 33/25 (s), 33/26 (s),
33/27 (s), 29/31 (s)

112 ANNALS OF THE SOUTH AFRICAN MUSEUM

Pigi 3.

Hydractinia diogenes. A, part of female colony; B, t.s. female sporosac showing radial canals;
C, l.s. female sporosac showing circular canal; D, l.s. ripe male sporosac.
Hydractinia kaffraria. E, \.s. young female sporosac; F, l.s. male sporosac; G, part of colony
with gastrozooid, tentaculozooid and female gonozooid.
Scale in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 113

Hydractinia marsupialia sp. nov.
Fig. 38

Podocoryne carnea: Ritchie, 19076: 523. Millard, 1966a: 461.
?Hydractinia parvispina: Vanhoffen, 1910: 291.
Hydractinia carnea: Millard, 1957: 181.

Holotype. A female colony on Nassa speciosa from Table Bay. Cat. no. SAM-—
H1854.

Paratypes. Nine other colonies, including both male and female, on the same
host and from the same locality. Cat. no. SAM-H1855.

Description of type series. Colonies epizootic on the gastropod Nassa speciosa
Adams. Hydrorhiza a network of perisarc-covered tubes which is open in
young colonies but in older ones is coalesced to form an incrustation covered
with a layer of naked coenosarc; bearing spines, gastrozooids and gonozooids.

Spines smooth and short, reaching a maximum height of 0,4 mm, but more
often only 0,2 mm or less; occasionally absent, especially in young colonies.

Gastrozooids reaching a maximum height of 1,9 mm (preserved), with
8-16 tentacles, with no perisarcal collar.

Gonozooids smaller than gastrozooids, reaching a maximum height of
0,8 mm (preserved), with 5—9 tentacles, bearing a circle of up to six gonophores.
Gonophores round or oval, reaching a maximum length of 0,7 mm and a
maximum diameter of 0,6 mm, with 4-8 marginal tentacles reaching 0,18 mm
in length, each with a pigmented spot at base, with four radial canals and a
circular canal. Sexual products discharged into, and retained for a while within,
a marsupium formed by the perisarcal coating of the gonophore. Medusoid
remaining attached after evacuation of sexual products from marsupium.
Female with 20-40 eggs arranged in 3-6 tiers. Male with four groups of sperma-
togenic cells alternating with the radial canals.

Colour: creamy white, marginal bulbs of medusoids dark red.

Nematocysts of two kinds:

(i) Long-oval capsules, 7,2 x 2,7 — 10,2 x 3,6 pu.

(ii) Short-oval capsules, 5,4 x 3,0 yu.

Histology. Sections through a mature male medusoid with the spermatogenic
cells extruded into the marsupium show several interesting features. The ecto-
derm lining the subumbrellar cavity (entocodon) is thickened and contains
branching mesogloeal lamellae bearing muscle fibres. The latter are presumably
used to expel the sexual products and are similar to those found in the Myrio-
thelidae. This whole layer is much thinner before extrusion when it is stretched
by the bulging gonads and the lamellae are then scarcely recognizable. The
stomach is well developed and quadrangular; during extrusion the tip of the
hypostome is squeezed out into the marsupium and its cavity closed by pressure
in the region of the bell margin. Remains of the ruptured velum are clearly
visible.

114 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 38.

Hydractinia marsupialia sp. nov. A, Male colony from holotype; B, I.s. ripe male sporosac
compiled from sections and whole mounts and passing through a radial canal on left;
C, ripe male sporosac; D, ripe male sporosac with spermatogenic cells extruding into
marsupium; E, spent male sporosac; F, ripe female sporosac from paratype.
Abbreviations: c: capsule; cc: circular canal; ec: ectoderm with muscle layer; en: endoderm;
g° gonad; m: marsupium; rc: radial canal; t: tentacle; v: remains of velum.
Scale in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA LS

The structure of the female gonophore is similar, but no stages with eggs
extruded into the marsupium occur. In the oldest specimens the velum is rup-
tured and the tentacles extended into the marsupial cavity. The eggs are arranged
in four groups although these are not so clearly demarcated as in the male.
The muscle layer of the entocodon is clearly visible in young gonophores but
stretched and thin in older ones. ;

Remarks. This species was previously ascribed to Podocoryne carnea (Millard
1957, 1966a) when gonophores full of sexual products and young medusae
without gonads were found on the same colony. From a further study it is now
clear that the medusoids with free tentacles are individuals which have released
their sexual products but have remained attached to the gonozooid. There is
thus no evidence that the medusae are freed, and the material must be removed
from the genus Podocoryne.

The condition is similar to that described for Hydractinia proboscidea
(Hincks 1868) where also the sexual products are extruded and held temporarily
within the perisarcal covering. H. proboscidea differs in the absence of spines
and lack of differentiation between gonozooids and gastrozooids.

Distribution. Endemic to South Africa.

Distribution in South Africa. Saldanha Bay to Algoa Bay, 4-82 m. ?Inhaca.
Type locality: Table Bay. 33/17 (s), 33/18 (s), 34/18 (s), 34/21 (s), 34/22 (s),
34/23 (s), 33/25 (s), 33/26 (s), 34/25 (s), 226/32 (s)

Doubtful species
Hydractinia pacifica Hartlaub, 1905
Hydractinia pacifica: Stechow, 1925a: 408.

Remarks. Stechow records this species from Algoa Bay. However, his colony was
male, and the distinctive features of H. pacifica rest in the female sporosac, which has
only one egg surrounded by a branching spadix. No Hydractinia with such female
sporosacs has been recorded from South Africa and Stechow’s record should be drop-
ped from the literature.

The host snail (Phos plicosus—Nassa speciosa) and the number of tentacles in
gastrozooid and gonozooid suggest that Stechow’s material was a spineless variety of
Hydractinia marsupialia.

Genus Hydrocorella Stechow, 1921

Diagnosis. Hydrorhiza with a calcareous skeleton developing small spines and
large pillar-shaped processes, covered by a layer of naked coenosarc. Gastro-
zooids with one whorl of tentacles. Gonophores in the form of fixed sporosacs.

Type species: Hydrocorella africana Stechow, 1921.
One species only from South Africa.

116 ANNALS OF THE SOUTH AFRICAN MUSEUM

Hydrocorella africana Stechow, 1921
Frontispiece; Fig. 39
Hydrocorella africana Stechow, 1921c: 30. Stechow, 1925a: 409. Millard, 1966a: 458, fig. 7.

Diagnosis. Colonies epizootic on shells of gastropods and hermits. Hydrorhiza
secreting a calcareous skeleton which is covered by a layer of naked coenosarc
bearing gastrozooids, gonozooids and tentaculozooids. Skeleton produced into
conspicuous longitudinally ridged processes of two grades: the larger reaching
5 mm or more and bearing hydranths on the surface, the smaller 0,5-1,0 mm.

Gastrozooids reaching 3 mm in length when expanded, with 5—12 tentacles,
of which one or two are usually much longer than the others. Tentaculozooids
situated round shell aperture, with terminal battery of nematocysts, not always
present. Gonozooids reduced, about 0,5 mm in length, with about six rudimen-
tary tentacles, bearing several sporosacs.

Sporosacs spherical, with no radial or circular canals and no tentacles,
male and female on separate colonies. Male reaching 0,3 mm in diameter,
bearing the sexual products around a central spadix. Female reaching 0,6 mm
in diameter, bearing a single egg which is later surrounded by hollow out-
growths from the short, basal spadix. Planula gourd-shaped, developing in situ.

Colour: skeleton chalky white, hydranths creamy white to pale orange,
sporosacs orange.

Nematocysts of two kinds:

(i) Microbasic euryteles, 7,2 x 2,7 — 11,4 x 4,8 pu.

Gi) Desmonemes, 4,5 x 2,4 — 6,6 x 3,0 pu.

Variation. Although there is much variation in the shape and size of the skeletal
processes, the species is easily recognized by the chalky white skeleton. In young
colonies only the small processes are present and the colony is low, spreading
and Hydractinia-like in appearance. Later the skeleton becomes thicker and
the larger processes develop, giving a grotesque appearance to the whole.
There may be as many as six large processes on one host, and they often show a
tendency to project forwards over the mouth of the shell in the line of movement
of the host. The processes are usually longitudinally ridged and star-shaped in
section, but there may be fusion between two or more, compression in one
plane or other irregularities. In old colonies the smaller processes may form
compressed and curved plate-like structures arching over the gonozooids and
the developing planulae. The latter are thus imprisoned until they become free
from the gonozooids and able to escape by amoeboid movements.

The presence of one or two extra long tentacles on the gastrozooid is very
typical. The tentacles usually arise in one whorl, but sometimes one or more
appear to arise at a lower level than the rest.

There seems to be no specificity in the choice of host, and a considerable
number of host gastropods and hermits has been recorded (see p. 23). Often
the host is so overgrown that it is impossible to identify it.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA. 7

0 Mess sais
ees Senet ae
c ry 9
Se, c

| SS
OT ee ee oe oe

F-G

Fig. 39.

Hydrocorella africana. A, colony completely covering shell of hermit; B, section through
colony and host shell showing calcareous processes and contracted hydranths; C, gastro-
zooids; D, gonozooids, two female and one male; E, planula; F, t.s. female sporosacs
of different ages; G, l.s. female gonozooid and sporosac; H, nematocysts, from left to
right: microbasic eurytele discharged and undischarged, desmoneme.

Scale: A, B and C in mm, H in mm/100, the rest in mm/10.

118 ANNALS OF THE SOUTH AFRICAN MUSEUM

Distribution. Endemic to South Africa. Type locality: ‘South Africa’.

Distribution in South Africa. Orange River mouth to Durban, littoral to 500 m.
Common in shallow dredgings round the south-west Cape. 28/16 (s), 30/17 (1),
32/17 (s), 33/17 (s), 33/18 C1, s), 34/18 (s), 34/19 (s), 35/19 (s), 34/20 (s), 35/20 (s),
34/21 (s), 34/22 (d), 34/23 (d), 35/23 (vd), 34/24 (d), 29/31 (s)

Genus Stylactis Allman, 1864
Syn. Halerella Stechow, 1922.

Diagnosis. Hydrorhiza of anastomosing perisarc-covered tubes which may bear
spines. No superficial layer of naked coenosarc. Gastrozooids with tentacles
in one whorl (or rarely two closely alternating whorls). Gonophores in the form
of fixed sporosacs, borne on blastostyles.

Type species: Stylactis inermis Allman, 1872.
One doubtful species from South Africa.

Doubtful species
?Stylactis siphonis (Stechow, 1921)

Stylactella siphonis Stechow, 19216: 224.
Halerella siphonis: Stechow, 1925a: 407, fig. 2.

Diagnosis. Colonies epizootic in the siphon of a gastropod. No spines. Gastrozooids
reaching 0,8 mm, with a broad base and 8-10 tentacles. Reproduction unknown.

Remarks. Stechow reported this species from 500 m, south of Plettenberg Bay. It has
not been rediscovered, and Stechow’s description is so brief that the systematic posi-
tion is in doubt. Examination of a whole mount from Stechow’s collection has added
nothing further to our knowledge. Stechow records the host gastropod as Sipho
islandicus, but this species is not known in South African waters.

Family Cytaeidae

Diagnosis. Colonial hydroids with a stolonial habit but no polymorphism.
Hydrorhiza of anastomosing perisarc-covered stolons which are not incrusted
and are without spines. Hydranths sessile and naked, but often with a cup-
shaped collar of perisarc around base, with one whorl of filiform tentacles and
a conical hypostome. Gonophores borne directly on the hydrorhiza, in the form
of fixed sporosacs or medusae.

Medusa, when present, deep bell-shaped, with simple mouth, four solid mar-
ginal tentacles, unbranched oral tentacles on mouth-rim and four unbranched
radial canals; without ocelli; gonads interradial or forming a continuous ring.

Introduction. This is a small family created originally for the medusa genus
Cytaeis. The hydranth generation was unknown until 1931, but since then
several life histories have been worked out. The family has been revised and/or
discussed by Kramp (1932), Rees (1956b, 1962) and Uchida (1964).

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 119

The hydranth generation is very similar to that of the Hydractiniidae and,
4s in this family, shows a preference for an epizootic life on gastropod shells.
However, unlike the Hydractiniidae, the hydrorhizal tubes do not coalesce and
become incrusted, spines never occur and there is no polymorphism. A collar
or vase-like tube of perisarc typically surrounds the base of the otherwise naked
hydranth, and this does not occur in the Hydractiniidae. As in some species of
Hydractinia alternate tentacles of the hydranth may be displaced, giving the
appearance of two closely alternating whorls.

One of the most distinctive features of the family is the fact that the gono-
phores are borne direct on the hydrorhiza and not on hydranths or on gono-
zooids. These may develop into free-swimming medusae in Cytaeis or may
remain attached as sporosacs or degenerate medusae in Perarella, a genus
which was re-established by Rees (19565).

The adult medusa is of simple construction and shows resemblances to
that of the Hydractiniidae and the Bougainvillidae. It differs from the Hydracti-
niidae in the better defined oral tentacles, and from the Bougainvilliidae by the
insertion of the oral tentacles on the mouth-rim rather than just above it.
Uchida (1964) considers that the Bougainvilliidae could have arisen from the
Cytaeidae by the branching of the oral tentacles and the increase in number
and clustering of the marginal tentacles.

In the type species of Cytaeis, C. tetrastyla, Kramp (1959) has reported the
budding-off of hydranths from the stomach wall of the medusa. The further
history of these buds is unknown, nor is it established whether there is any
fixed hydranth stage.

KEY TO GENERA

[Genera not represented in South Africa are bracketed]

1. Producing free medusae .. # - we ies at Bs Cytaeis p. 119
— Producing fixed sporosacs are te i Sy. xe Eee [Perarella]

Genus Cytaeis Eschscholtz, 1829
Diagnosis. Gonophores developing into free medusae. Adult medusa with
characters of family.
Type species: Cytaeis tetrastyla Eschscholtz, 1829.
One hydranth species only from South Africa.

Cytaeis nassa (Millard, 1959)
Fig. 40

Podocoryne nassa Millard, 1959a: 307, fig. 3.

Cytaeis nassa: Rees, 1962: 390, figs 8-9, pl. 11. Vervoort, 1967: 26, fig. 3, pl. 3 (fig. 2). Millard
& Bouillon, 1973: 31, pl. 5.

Diagnosis. Colony epizootic on shells of gastropods of the genus Nassa. Hydro-

rhiza reticular, following the grooves of the host shell. Hydranths columnar,

120 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 40.

Cytaeis nassa. A, colony on host shell; B—D, stages in development of medusa-bud.
Scale in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 121

widest near base but narrowed at origin from hydrorhiza, reaching a maximum
height of 2,5 mm, with conical hypostome and 8-16 tentacles in two closely
alternating whorls, often surrounded at base by a cup-like expansion of peri-
sarc.

Gonophore arising separately from hydrorhiza on slender pedicel, pear-
shaped when young, globular when mature, completely enveloped by mem-
branous perisarc. Medusa at liberation deep bell-shaped, reaching 0,5 mm in
depth, with four radial canals, four perradial marginal bulbs bearing tentacles,
tubular hypostome with four oral tentacles armed with distal nematocyst
clusters. Adult medusa unknown.

Nematocysts of two types: heteronemes, 8,1 x 3,1 wu, and ?desmonemes,
6,3 < 3,6 LW.

Distribution outside South Africa. Red Sea (on Nassa arcularia and N. fenestrata),
Madagascar (on N. arcularia and N. albescens), Seychelles, Mauritius.

Distribution in South Africa. Inhaca Island, Mogambique (type locality), littoral,
on N. fenestrata and N. coronata. 26/32 (1), 25/32

Family Pandeidae

Diagnosis. Colonial hydroids with a stolonial habit. Hydranths with one whorl
of filiform tentacles or with tentacles absent. Perisarc of variable development
or completely absent. Producing free medusae.

Adult medusa without oral tentacles but with four simple or crenulated
oral lips, four radial canals, hollow marginal tentacles, with or without ocelli.

Introduction. The Pandeidae is an important medusa family in which the
hydranth generation is usually inconspicuous, has little to distinguish it from
several other families and has practically no diagnostic characters. In many
species the hydranth is still unknown. Among those which are known Leuckar-
tiara and Hydrichthys are fairly easily recognized; others must be reared to the
medusa stage for identification to genus or even family level.

So far as is known the hydroid generation is always stolonial, with hydranths
rarely branching once or twice only.

The hydrorhiza is usually reticular and covered by perisarc, but in the
aberrant parasitic genus Hydrichthys the hydrorhiza is expanded and plate-
like, capable of eroding the flesh of the host, and is reminiscent of the naked
coenosarc encountered in the Hydractiniidae.

The degree of development of perisarc varies considerably. It is entirely
absent in Hydrichthys, and limited to the hydrorhizal tubes in Pandea conica.
In both these genera the hydranth is sessile. In Amphinema and Leuckartiara
the hydranth is borne on the summit of a distinct hydrocaulus. In Amphinema
the perisarc continues on to the hydrocaulus and terminates below the hydranth
body. In Leuckartiara it continues over the base of the hydranth as well, where
it forms a swollen and gelatinous pseudohydrotheca similar to that found in

122 ANNALS OF THE SOUTH AFRICAN MUSEUM

some Bougainvilliidae. In Hydrichthys the hydranths are devoid of tentacles,
apparently a secondary condition associated with the parasitic mode of life.

The adult medusa is characterized by its four-lipped mouth without
oral tentacles but usually with elaborately folded margins, and by its large and
usually laterally compressed marginal bulbs. Unlike the Bougainvilliidae the
marginal tentacles are hollow.

Both medusa and hydranth generations show much diversity and, as
suggested by Uchida (1964), the family will undoubtedly need subdivision
once the life-histories are better known.

KEY TO GENERA

[Genera in which the hydranth generation is unknown in South Africa are bracketed.]

1. Hydranth generation parasitic on fish, without tentacles se: Hydrichthys p. 122
— Hydranth generation not parasitic, but often epizootic on gastropods and other

hosts. Tentacles present = a = - af Ma ce fe Z
2. Perisarc continued over base of hydranth as a pseudohydrotheca Leuckartiara p. 123
— Perisarc not covering hydranth . ee ‘ Ma; a bs 3
3. Hydranths sessile, with no distinct hydrocaulus .. i BE .. [Pandea]
— Hydrocaulus well developed, longer than hydranth 56 ie: [Amphinema]

Genus Hydrichthys Fewkes, 1888

Diagnosis. Colony parasitic on fish. Hydrorhiza expanding to form a plate-
like layer without covering perisarc and, in at least some species, capable of
eroding the underlying fish tissue. Hydranths without tentacles. Gonophores
developing into free medusae with two opposite marginal tentacles at liberation,
two or four at a later stage. Adult medusa unknown.

Type species: Hydrichthys mirus Fewkes, 1888.
One species only from South Africa.

Hydrichthys boycei Warren, 1916
Fig. 41E-H
Hydrichthys boycei Warren, 1916: 172-185, fig. 12, pls 17-20. Kramp, 1921: 13, 15. Millard,

1959a: 309.

Diagnosis. Colony parasitic on fish of the species Ambassis safgha (Forskal)
(syn. A. natalensis), Chaetodon lunula (Lacépéde), and Mugil sp.

Hydranth without tentacles, naked, reaching 2,5 mm in height, with a band
of nematocysts around mouth. Medusa-buds borne on hydrorhiza and on
hydranth in clusters, the hydranth when fully developed becoming very large
and often branched.

Medusa at liberation with four radial canals and a circular canal, a quad-
rihedal mouth and two massive and opposite marginal bulbs. No ocelli. Slightly
older medusa with two very long marginal tentacles.

Colour: reddish.

Nematocysts of one type only, possibly stenoteles, 9,1 x 3,6 wu.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 123

Remarks. In this species the lower surface of the hydrorhiza is capable of eroding
the tissues of the host and can send haustorium-like outgrowths into the flesh.
The hydranths can then apply their open mouths to the damaged surface and
tap the blood vessels.

Warren distinguished between normal feeding hydranths and ‘gonostyles’
bearing medusae, some of the gonostyles being very large and fleshy and
apparently without a hypostome. In my material there is no essential difference
between the infertile and fertile hydranths. The medusa-buds develop on the
body of the hydranth and gradually increase in number, the attachments of the
clusters becoming drawn out as lateral branches. At the same time the hydranth
increases in size and girth. In this sample at any rate the hypostome is always
retained though often obscured by the wealth of medusa-buds. It is possible
that it may atrophy in older individuals.

The genus Hydrichthys is included in the Pandeidae on the structure of the
young medusa, although no adult medusae with ripe gonads are known.

Distribution. Endemic to South Africa. Type locality: Durban Bay.

Distribution in South Africa. Durban area only. 29/31

Genus Leuckartiara Hartlaub, 1914

Diagnosis. Colony stolonial. Hydrorhiza reticular. Stem unbranched or sparingly
branched, unfascicled, covered with perisarc which extends as a gelatinous
pseudohydrotheca over the base of the hydranth, but does not invest the bases
of the tentacles. Hydranth with one whorl of filiform tentacles and a conical
hypostome. Gonophores borne on stem or hydrorhiza, completely invested in
perisarc, developing into free medusae.

Medusa with apical process; with large stomach attached to radial canals
by ‘mesenteries’; mouth with much-folded or crenulated lips; gonads interradial,
horseshoe-shaped, with folds directed perradially; radial canals broad and rib-
bon-like, often with jagged edges; with numerous marginal tentacles with elon-
gated laterally compressed marginal bulbs; often with rudimentary tentacles.

Type species: Geryonia octona Fleming, 1823.
One hydranth species only from South Africa.

Leuckartiara octona (Fleming, 1823)

Fig. 41A—D

Geryonia octona Fleming, 1823: 298.

Perigonimus vestitus f. radicans Vanhoffen, 1910: 286, fig. 11.

Leuckartiara octona: Rees, 1938: 12, figs 3-5. Russell, 1953: 188, figs 91-96, pl. 11 (figs 5-6),

pl. 12 (fig. 3), pls 30-31. Rees, 1956a: 347. Millard, 1957: 182. Kramp, 1965: 30.

Diagnosis. Colonies epizootic on the shells of gastropods, reaching a maximum
height of 5 mm. Stem increasing in diameter from base to distal end, bearing
a terminal hydranth and occasionally 1-3 lateral ones as well. Perisarc firm,

124 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 41.

Leuckartiara octona. A, hydranths bearing medusa-buds; B—D, medusa-buds of different ages.
Hydrichthys boycei. E.and F, medusa-buds at liberation, redrawn from Warren (1916)
G, various zooids from colony; H, older medusa, redrawn from Warren (1916).
Scale in mm/10.

MONOGRAPH ON THE HYDROIDA OF £ JTHERN AFRICA | Bis

often annulated or wrinkled, especially at base, e»panding to form a gelatinous
pseudohydrotheca over base of hydranth, usualiy covered with adherent silt.
Hydranth with 6-12 tentacles.

Medusa-buds pedicellate, completely investec in perisarc, oval, reaching a
diameter of 0,45 mm. Newly released medusa with two opposite marginal
tentacles. :

Adult medusa reaching 20 mm in depth, with conical or spherical apical
process, ‘mesenteries’ extending about halfway alung stomach, 12-24 marginal
tentacles, each with abaxial spur, 16 or more club-s*aped rudimentary tentacles.
Ocelli present.

Variation. The usual host for this species is Bullia annulata (Lamarck), but it
also occurs on Nassa speciosa Adams and N. anai+gica Sowerby and probably
on other gastropods as well. Vanh6ffen reports it (us Perigonimus vestitus) from
a crab, Halicarcinus sp.

The form of the colony varies according to the position on the host shell
and the amount of friction to which it is subject. On the under side hydranths
are small and the stems low (about 1 mm) and thus protected to some extent
in the grooves of the shell. In this position the co:ony seldom produces gono-
phores and sometimes only the hydrorhiza occurs. ‘Jn the upper surface of the
Shell and round the tip of the spire hydranths are !arger and stems taller and
often branched, reaching 5 mm. Here abundant medusa-buds are produced on
the stem, several to each, and rarely on the hydrorstiza.

Distribution. Cosmopolitan. Type locality: Bell Rock, Scotland.

Distribution in South Africa. False Bay to Algoa Bay in 3-82 m. Medusae from
Natal and Mocambique in 100-300 m. Hydranths- 34/18 (s), 34/23 (s), 34/25
(s), 33/25 (s), 33/26 (s). Medusae: 31/30 (d), 29/32 (d*. 25/36 (d). ;

SUBORDER THECATA

Diagnosis. Hydranth with a definite hydrotheca of definite shape; with one
whorl of filiform tentacles. Gonophores enclosed in gonothecae; in the form of
fixed sporosacs or free medusae. Medusa usually fattened or hemispherical;
with gonads on radial canals but sometimes contiguo:is with stomach; marginal
sense organs usually present, in the form of cordyli, ectodermal statocysts or,
occasionally, ocelli.

KEY TO FAMILIES

1. Hydrotheca with operculum ae $8 Es a ( a z 2
Hydrotheca without operculum .. ia Sa oe a ey Bs 3

2. Hydrotheca bilaterally symmetrical, usually with marginal teeth. Gastral endo-

derm differentiated .. ie $e x is ay SERTULARIIDAE p. 239
— Hydrotheca radially symmetrical, never with true marginal teeth. Gastral endo-

derm undifferentiated a3 ae 5 a: ae CAMPANULINIDAE p. 126

126 ANNALS OF HE SOUTH AFRICAN MUSEUM

3. Hydrotheca saucer- or basin-shaped, usually too small to contain contracted
hydranth Se .. HALECIIDAE p. 141
— Hydrotheca usually deep enough to contain contracted hydranth be ae 4

4. Hydrothecae always restricted to one side of stem or branches. Nematophores
present and with regular arrangement, usually 3 or 5S to each hydrotheca

PLUMULARIIDAE p32)

— Hydrothecae on two or more sides of stem or branches. Due if
present, seldom regularly arranged ars : B)

5. Hypostome trumpet-shaped. Hydrotheca always orentigalees, ‘ais campanu-
late and radially symmetrical. Margin toothed or untoothed CAMPANULARIIDAE p. 200

— Hypostome conical. Hydrotheca pedicellate or sessile, of varying shape, radially
or bilaterally symmetrical. Margin always untoothed .. aS 6

6. Hydrotheca with a.definite floor, always sessile and bilaterally Sytameteem
No nematothecae.. SYNTHECIIDAE p. 230

— Hydrotheca with no definite floor, “with ¢ or without diaphragm, diaphragm
when present always delicate. Hydrotheca pedicellate or sessile, bilaterally or
radially symmetrical. Nematothecae present or absent .. .. + LAFOEIDAE ‘p. 166

Family Campanulinidae

Diagnosis. Small thecate hydroids with stolonial colonies or sympodially
branched stems. Hydrotheca deep and usually cylindrical, with untoothed
margin, with a conical or roof-shaped operculum of converging segments which
may or may not be sharply demarcated from margin, with or without a dia-
phragm. Hydranth slender and extensile, completely retractable into hydrotheca,
with conical hypostome, with or without an intertentacular web. Nematophores
present or absent. Gonophores in the form of fixed sporosacs or free medusae.

Introduction. With the exception of a few authors in recent years polyp systema-
tists have grouped together all operculate hydroids other than the Sertulariidae
in the family Campanulinidae. These forms are mostly minute and inconspicuous
and show a certain uniformity in structure. Some of them produce fixed sporo-
sacs and others medusae, and in the latter the medusa is obviously the dominant
generation and its evolution has outpaced that of the polyp.

Medusa systematists, on the other hand, have independently grouped the
medusae among several different families, so that two completely different
systems of classification have arisen. Attempts to combine the two classifica-
tions into one have not so far been successful, due to the fact that the polyp
generation is still unknown for the majority of medusa species. Recent work on
life-histories has produced anomalous situations; for instance, two very similar
polyp species may produce medusae belonging to different families, e.g. Cuspi-
della produces medusae of the families Laodiceidae and Mitrocomidae; or polyps
of one medusa family may differ in structure, e.g. Eucheilota and Lovenella in the
Lovenellidae.

Rees (1939) felt that the medusa families should be used where possible,
transferring the polyps to them as the life-histories become known. However,
it is evident that the medusa families may also need revision. For instance, the
Lovenellidae are distinguished from the Phialellidae mainly by the presence of cirri
in the former, and Uchida (1964), in discussing the relationships of the polyp genus

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA Zi

Eugymnanthea, where some species produce Lovenellid medusae and another
a Phialellid medusa, remarked that ‘the cirri seem not to be very important’.

For a polyp systematist the only practical solution is to retain the family
Campanulinidae until such time that a better knowledge of both generations will
permit a critical reassessment of the whole group. A key to the currently used
medusa families based on the works of Kramp and Russell is, however, appended
to this section.

At the generic level, genera must be diagnosed primarily on the characters
of the type species, and where this is known for one generation only, the generic
name may have to be changed in the future. At present the medusa cannot be
deduced from the polyp or the polyp from the medusa.

Rees (1939) revised the genus Campanulina, retaining it solely for the type
species C. tenuis.

The polyp generation is generally minute and, unless specially reared, is
often encountered only in an epizootic or epiphytic habitat. The colony may be
stolonial, or it may produce upright stems which branch sympodially a few
times. Very rarely the stem is fascicled, when the sympodial character may be
largely obscured. The perisarc of the stem is usually firm, and annulated to a
varying degree.

The hydrotheca may be sessile, as in Lafoeina, but is more often pedicellate,
with a distinct, though sometimes very short, pedicel. The hydrotheca may
merge gradually into the pedicel, or be clearly demarcated from it by a well-
marked floor. In the aberrant genus Lineolaria the hydrothecae are adherent to
the algal substratum for almost the entire length.

The hydrotheca is typically cylindrical, but may be turbinate, deep bell-
shaped or deep ovate. It is always deeper than wide. Normally it is radially
symmetrical, but in Lineolaria it is bent up from the substratum and in Modeeria
the distal end is produced on two sides to support the operculum. There are
never true marginal teeth. A diaphragm occurs in some species and is always
extremely thin and delicate.

The OPERCULUM consists of a number of converging segments which close
over the retracted hydranth. There appear to be three main types:

(i) The segments are few (4-10) and distinct, seated in embayments of the thecal
margin and clearly demarcated from it. According to Kramp (1932) this
type of operculum is formed from the original roof of the growing hydrotheca,
e.g. Calicella, Lovenella and Tetrapoma, a small central part being discarded
in the first two. He includes these three genera in the polyp subfamily Cali-
cellinae.

(ii) There are only two pleated membranes which meet one another like the
roof of a gable and impart a bilateral symmetry to the distal part of the
hydrotheca, e.g. Modeeria.

(iii) The distal part of the hydrotheca wall is longitudinally creased or split to
form an irregular number of delicate valves which fold inwards in an untidy
manner to close the aperture. The valves are not clearly demarcated from the

hydrotheca, e.g. Eucheilota, Phialella, Aequorea, Lafoeina, Cuspidella, Oper-
cularella.

128 ANNALS OF THE SOUTH AFRICAN MUSEUM

TYPE 1 TYPE 2 TYPE 3

Fig. 42.
Campanulinidae: opercular types.

According to Kramp (1932) the operculum in Stegopoma (= Modeeria),
Lafoeina and Cuspidella is formed from the distal part of the hydrothecal wall,
the original roof being discarded. He included these three genera in the polyp
subfamily Cuspidellinae. He used a separate subfamily, Campanulininae, for
Opercularella, Campanulina, Oplorhiza and Egmundella, where the operculum
develops like that of the Calicellinae but the appearance is like that of the
Cuspidellinae.

The type of opercular development, though obviously important, cannot be
used to distinguish families as they stand at present, since, for instance, two
completely different types occur in the Lovenellidae (Lovenella and Eucheilota).

The hydranth is usually long and slender and very extensile. It often reaches
several times the length of the hydrotheca when fully extended and can be
completely withdrawn into the hydrotheca. The tentacles are equally extensile
and bear clusters or rings of nematocysts. In many species an intertentacular
web connects the bases of the tentacles and may contain accumulations of large
nematocysts (Fig. 43C). The endoderm of the hydranth is undifferentiated.

Nematophores are present in the genera Lafoeina, Oplorhiza, Egmundella
and in at least one species of Lineolaria. They are contained in nematothecae
which are round or tubular in shape.

Gonothecae may be borne directly from the hydrorhiza or from the stem.
Fixed sporosacs are diagnostic of the genera Calicella, Opercularella, Tetra-
poma and Lineolaria.

In conclusion it should be mentioned that there are certain species of the
medusa families Eutimidae and Eirenidae which produce polyps without
hydrothecae. Russell (1953) has assumed that the hydrothecae are reduced.
Brinckmann-Voss (1973) has proposed uniting these two families under the
name Eirenidae. Since no hydranths of this type are as yet known from South
Africa the problem can conveniently be postponed, and such polyps have not
been allowed for in the diagnosis of the Campanulinidae or in the keys.

KEY TO MEDUSA FAMILIES RELATED TO THE CAMPANULINIDAE

1. Producing fixed sporosacs .. ie ae is ane ty CALICELLIDAE
— Producing free medusae ed ae 3% 03 RA A os a so tee

oN ee See

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA

Medusa with marginal cordyli re ae re he i .. LAODICEIDAE
Medusa without cordyli, with statocysts Pe vs eA
Statocysts open a site Be Se Be a fee MITROCOMIDAE

Statocysts closed

Medusa with distinct gastric Aetenels
Medysa without peduncle

Stomach very broad; many radial canals; with ereretels pores .. AEQUOREIDAE

EIRENIDAE (including EUTIMIDAE)

Stomach narrow; usually with 4 or 8 radial canals; with or without excretory pores

With excretory pores; 4-8 radial canals .. i: ue Ae PHIALUCIDAE
Without excretory pores; 4 radial canals .. A re i
Lateral or marginal cirri present .. bi af Be oF, LOVENELLIDAE
No cirri He ae Be es a, a: ae ae PHIALELLIDAE

KEY TO GENERA

[Genera not represented in South Africa are bracketed]

Hydrotheca adherent to substratum x. : se & Lineolaria p.

Hydrotheca erect and free .

2. Operculum of two pleated membcaiies faeetines one nnothe! like the roof Bie a

gable : ee se Modeeria ps

Operculum pyramidal, of mr more than two valves

Operculum of 4 valves ;

Operculum of more than 4 valves: Be - be
Opercular valves sharply demarcated from By eo eee All .. [Tetrapoma]
Opercular valves not sharply demarcated from hydrothecal wall [Stegella]
Opercular valves seated in distinct EEG iRi ti of thecal margin and sharply
demarcated from it .

Opercular valves not sharply demarcated

Producing free medusae with lateral cirri ne: - 3 Lovenella p.
Producing fixed sporosacs ee a mae i Se Calicella p.

Nematophores present

Nematophores absent 4
Hydrotheca sessile and tubular; mieniaiolhecs Cone SaEOGhoTeS jaa
known, producing free medusae .. ; ve, ite [Lafoeina]
Hydrotheca pedicellate: nematotheca not tubular

Hydrotheca widest at distal end, tubular to top-shaped; Eenuuhoses: oe
known, producing free medusae .. .. Egmundella p.
Hydrotheea widest in middle, Harrowing at base and distal end; gonophores
unknown ... a Ne e hy [Oplorhiza]
Producing fixed sporosacs ee oe cot ee Opercularella p.

Producing free medusae

. Hydrotheca sessile, long and aenen Ss zs a (Cuspidela

Hydrotheca pedicellate

Hydranth without eaainealae Sis Nacdue Sino Se tai pores or
Githi «5. ve a ae me. Phialella p.
Hydranth with intertentacular +16) ; ae xt: ‘

. Medusa with excretory pores, without cirri as sm we Aequorea p.
Medusa without excretory pores, with lateral cirri a [Eucheilota]

Genus Aequorea Péron & Lesueur, 1809

129

Diagnosis. Colony stolonial or producing sparsely branched sympodial stems.
Hydrotheca minute, pedicellate and free, radially symmetrical, with an oper-

130 ANNALS OF THE SOUTH AFRICAN MUSEUM

culum of many converging segments not sharply demarcated from hydrothecal
wall. Hydranth with an intertentacular web. Nematophores absent. Gonophores
producing free medusae.

Medusa with broad stomach; with many unbranched radial canals; with
hollow marginal tentacles; with excretory pores; without cirri; with closed
statocysts; without ocelli. (Medusa family: Aequoreidae.)

Type species: Aequorea forskalea Péron & Lesueur, 1809.
One polyp species only from South Africa.

Aequorea africana Millard, 1966
Fig. 43A—-E
Aequorea africana Millard, 1966a: 461, fig. 8.
Diagnosis. Hydrorhiza creeping, giving rise to short stems which either bear a
single terminal hydrotheca or branch sympodially up to three times, each limb
terminating in a hydrotheca.

Stem reaching 2 mm, annulated or corrugated throughout, increasing in
diameter from base to distal end, not sharply demarcated externally from
hydrotheca.

Hydrotheca deep, tubular, very thin and membranous, with distal region
creased longitudinally to close the aperture, 0,3-0,6 mm in depth and 0,11-
0,18 mm in maximum diameter. Hydranth with 11-17 tentacles with a web
between the bases. Extended tentacles moniliform.

Gonotheca arising from hydrorhiza or stem on short, annulated pedicel;
pear-shaped, containing one medusa-bud.

Medusa structure unknown.

Variation. The length of the stem varies from 0,2 to 2,1 mm. Short stems are
closely and distinctly annulated, but the longer ones are closely annulated in the
basal part only and irregularly corrugated for the rest.

The base of the hydrotheca appears to be somewhat stouter than the rest,
and in dead or damaged specimens it is the only part which persists, forming a
saucer-shaped structure reminiscent of Halecium. Successive regeneration after
damage may result in tiers of saucer-shaped structures.

Remarks. This species shows strong resemblances to Eucheilota maculata as
described by Werner (1968), to Campomma hincksi as illustrated by Leloup
(1952), and to Campanulina paracuminata Rees, 1938, which is possibly the polyp
generation of Aequorea forskalea. The genus name is thus provisional pending
further knowledge of the life-history. Several Aequorea medusae have been
reported from South Africa (see p. 482).

Distribution. Endemic to South Africa.

Distribution in South Africa. Mossel Bay (type locality), Inhaca, in 18 m. 34/22
(s), 25/32

13]

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA

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i

Ru

Fig. 43.

Aequorea africana. A, hydrotheca and extended hydranth; B, hydrotheca and contracted
hydranth with gonophore; C, expanded hydranth showing intertentacular web; D, empty
stem surmounted by saucer-shaped structure which is all that remains of the hydrotheca;
E, gonotheca containing medusa-bud and arising from hydrorhiza.

Calicella oligista. F, hydrothecae redrawn from Stechow (1925a).

Egmundella amirantensis. G, hydrothecae and nematothecae.

Lineolaria gravierae sp. nov. H, surface view of colony. growing on weed.
Scale in mm/10.

132 ANNALS OF THE SOUTH AFRICAN MUSEUM

Genus Calicella Hincks, 1861

Diagnosis. Colony stolonial. Hydrotheca pedicellate and free, deep and tubular.
Margin crenulated. Operculum of many converging segments, which do not
quite meet in the centre and which are clearly demarcated from the hydro-
thecal wall by a sharp and sometimes raised edge. No nematothecae. Hydranth
with no intertentacular web.

Gonophores in the form of fixed sporosacs.

Type species: Sertularia syringa Linnaeus, 1767.

One species from South Africa.

Calicella oligista Ritchie, 1910

Fig. 43F

Calycella oligista Ritchie, 19106: 813, pl. 76 (figs 3-4). Rees & Thursfield, 1965: 70.
Calicella oligista: Stechow, 1925a: 440, fig. 15.

Diagnosis. Hydrorhiza creeping, epizootic on other hydroids, giving rise to
solitary hydrothecae on short pedicels. Pedicel usually very short, always less
than half height of hydrotheca, smooth or irregularly twisted.

Hydrotheca deep-campanulate, smooth, delicate, minute, 0,12-0,14 mm
in depth and 0,05—0,07 mm in maximum diameter. Operculum of 12-14 con-
verging segments seated in wide bays of the margin. Diaphragm distinct, delicate.
Hydranth with 7-10 tentacles.

Gonotheca unknown.

Remarks. This species has not been reported since Stechow’s record. Its alloca-
tion to the genus Calicella is provisional pending the discovery of gonophores.

Distribution outside South Africa. Mergui Archipelago (type locality), Red Sea.
Distribution in South Africa. Plettenberg Bay, in 100 m. 34/23 (d)

Genus Egmundella Stechow, 1921

Diagnosis. Colony usually stolonial (but with branching fascicled stem in E.
fasciculata). Hydrotheca pedicellate, not sharply demarcated from pedicel,
turbinate or cylindrical, usually widest at level of opercular origin. Operculum of
triangular segments and (except in E. grandis) not sharply demarcated from
hydrotheca, and not seated in embayments of margin. Rarely a basal perisarcal
thickening. Nematotheca pedicellate, oval or spherical, borne on thecal pedicel
or on hydrorhiza.

Gonotheca, where known, cylindrical, arising from hydrorhiza, with an
operculum very like that of the hydrotheca, releasing free medusae.

Remarks. Gonophores are unknown in the type species of Egmundella, but have
been reported from EF. polynema Fraser. E. amirantensis definitely produces
medusae, but the adult medusa is unknown. See discussion by Vervoort (1966b:

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 133

109). Egmundella differs from the closely related Oplorhiza only in the shape of
the hydrotheca.

Type species: Egmundella gracilis Stechow, 1921.
One species only from South Africa.

Egmundella amirantensis Millard & Bouillon, 1973

Fig. 43G
Egmundella amirantensis Millard & Bouillon, 1973: 40, fig. 5SA—D

Diagnosis. Colony stolonial. Hydrothecal pedicel very short or absent. Hydro-
theca cylindrical, rounded at base, generally widest at level of opercular origin,
often slightly narrowed below this, 0,2-0,5 mm in depth and 0,08-0,11 mm in
marginal diameter. Operculum of about 11 fragile segments not clearly demar-
cated from one another or from thecal wall. Hydranth very extensile, with
9-13 tentacles and no intertentacular web.

Nematothecae arising from hydrorhiza, deep-oval, with slender pedicel,
containing a cluster of large, elongate nematocysts.

Gonotheca (not reported from South Africa) arising from hydrorhiza,
deep, irregular in outline, generally widening distally, containing one or two
medusa-buds, with faintly demarcated opercular segments.

Medusa with at least two marginal tentacles at release. Adult medusa
unknown.

Variation. The thecal pedicel is always very short, but may be quite absent so
that the hydrotheca is sessile. The hydrotheca is variable in length, and extra
long ones are possibly the result of regeneration though the perisarc is so delicate
that growth-lines are not visible. A perisarcal thickening may be visible in the
base. Occasionally a faint line may demarcate the opercular segments from the
hydrotheca.

Distribution outside South Africa. Seychelles: Amirante (type locality), Praslin
and Mahé.

Distribution in South Africa. Mocgambique, Inhaca to Santa Carolina. 26/32,
25/32, 21/35

Genus Lineolaria Hincks, 1861

Diagnosis. Colony stolonial and epizootic on weeds. Hydrotheca sessile or nearly
so, tubular or sac-shaped, adherent to weed for part or all its length, then bent
up. No diaphragm. Operculum present or absent, when present membranous
or of very delicate converging segments distinctly demarcated from hydrothecal
wall. Nematothecae present or absent.

Gonotheca adherent, where known containing fixed sporosacs.

Type species: Lineolaria spinulosa Hincks, 1861.
One species only from South Africa.

134 ANNALS OF THE SOUTH AFRICAN MUSEUM

Lineolaria gravierae sp. nov.

Fig. 43H

Lineolaria sp. Gravier, 1970a: 144, figs 11, 13A. Gravier, 1972: 8. Millard & Bouillon, 1974:
22 fis. 2D:

Holotype. An infertile colony growing on Cymodocea from Barreira Vermelha

on the west coast of Inhaca Island, Mocambique. Part of colony mounted on

slide in South African Museum (Cat. no. SAM-—-H1955) and part in Musée

Royal de l’Afrique Centrale, Bruxelles.

Diagnosis. Hydrorhiza generally running parallel to the long axis of the weed
substratum, in single, double or triple strands, each coated with a thin layer of
perisarc; giving rise to hydrothecae on both sides and to transverse strands
which usually form loops around the hydrothecae. Hydrothecae opposite,
alternate or irregular.

Hydrotheca tubular, adherent to weed for most of length, then bent
upwards, 0,4-0,6 mm in length and 0,16-0,2 mm in marginal diameter. Perisarc
thick near base, becoming thin distally. No pedicel, hydropore either open for
the full width of the hydrotheca or constricted to about one quarter of width.
Margin facing obliquely upwards, circular, untoothed, with an operculum of
many delicate converging segments. Hydranth with about 14 tentacles and a
conical hypostome.

Nematothecae borne on hydrorhiza on the transverse strands flanking the
hydrothecae, erect, not adherent, tubular, containing a group of large nemato-
cysts, reaching 0,2 mm in height.

Gonothecae (not reported from South Africa) adherent, obovate, smooth,
larger than hydrothecae, not bent up, with terminal aperture. Gonophores in
the form of fixed sporosacs. (From Gravier 1970a.)

Distribution outside South Africa. Madagascar.

Distribution in South Africa. Inhaca, Mogambique, only, on Cymodocea. 26/32

Genus Lovenella Hincks, 1868

Diagnosis. Colony stolonial or producing sparsely branched sympodial stems.
Hydrotheca minute, deep-campanulate, pedicellate and free, with a conical
operculum of about eight distinct converging segments seated in embayments
of the margin and sharply demarcated from the wall. Hydranth without inter-
tentacular web. Nematophores absent. Gonophores producing free medusae.

Medusa with small stomach; without peduncle; with four unbranched radial
canals; with hollow marginal tentacles; without excretory pores; with lateral
cirri; with an indefinite number (16 or more) of closed marginal vesicles; without
ocelli.

Remarks. The above diagnosis is based on the type species where the medusa
has been reared from the polyp (Russell 1953).

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 135

Type species: Campanularia clausa Lovén, 1836.

One polyp species only from South Africa.

Lovenella chiquitita Millard, 1957
Fig. 44
Lovenella chiquitita Millard, 1957: 198, fig. 7. Millard, 19595: 250, fig. 3. Millard, 1966a: 464.

Diagnosis. Hydrorhiza creeping, often epizootic on other hydroids, giving rise
to short stems which either bear a single terminal hydrotheca or branch sym-
podially up to nine times, each limb terminating in a hydrotheca. Stem reaching
1,9 mm, annulated throughout, increasing in diameter from base to distal end,
not sharply demarcated externally from hydrotheca.

Hydrotheca deep-campanulate, smooth, minute, 0,13-0,3 mm in depth and
0,09-0,16 mm in marginal diameter. Margin with 8-10 wide and shallow bays.
Operculum of 8-10 converging segments with a gap between their central points.
Diaphragm delicate. Hydranth with over 12 tentacles.

Gonotheca arising from hydrorhiza on short, annulated pedicel; smooth,
elongated, tapering below, truncated above, containing two medusa-buds.

Medusa at liberation with eight unbranched, marginal tentacles, without
cirri, with eight closed adradial marginal vesicles each containing two concre-
tions, with a short stomach and a simple, quadrangular mouth; 0,3 mm in depth
and 0,4 mm in diameter. (Medusa family: Phialellidae.)

Variation. The proportions of the hydrotheca are variable; in some the diameter
is almost equal to the depth and in others the depth is almost three times the
diameter. The perisarc of the hydrotheca is usually very delicate, but sometimes
thicker and in this case there may be an annular thickening just below the
diaphragm.

Observations on living material. Living hydranths are long, slender and very
extensile, the tentacles being held alternately elevated and depressed. Gono-
phores have released medusae in the laboratory, but the latter have not been
reared to maturity. The young medusae have four of the eight marginal tentacles
slightly longer than the others.

Colour: hydranths transparent; medusae transparent, with brown patches
on tentacle-bases and in stomach.

Remarks. The polyp generation of this species closely resembles that of the
type species of Lovenella, hence its inclusion in this genus. The newly released
medusa, however, differs from that of Lovenel/a in the absence of cirri.

Distribution. Endemic to South Africa. Type locality: False Bay.

Distribution in South Africa. Liideritz Bay to False Bay, littoral to 40 m. 26/15
(s), 33/18 (h, 1); 34/18 (h, 1, s)

136 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 44.

Lovenella chiquitita. A, branching stem and gonotheca; B-—D, hydrothecae, D with partly
extended hydranth; E, young medusa escaping from gonotheca; F, newly liberated
medusa, preserved and somewhat contracted.

Scale in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 137

Genus Modeeria Forbes, 1846
Syn. Tiaranna Hartlaub, 1914.
Diagnosis. Colony stolonial. Hydrotheca pedicellate, deep and tubular, with
margin produced on two sides. Operculum of two longitudinally pleated
membranes seated in the embayments of the margin and meeting one another
like a gable. No diaphragm. No nematothecae. No intertentacular web. Gono-
theca similar to hydrotheca. Producing free medusae.

Medusa with thick jelly; with large quadrangular stomach attached to
subumbrella along margins of four cruciform perradial furrows; mouth with
four well-developed folded lips; with four simple radial canals; gonads in
sinuous folds along sides of perradial furrows; with numerous hollow marginal
tentacles with conical basal bulbs; with cordyli; without ocelli; without
statocysts. (Medusa family: Laodiceidae.)

Type species: Dianaea rotunda Quoy & Gaimard, 1827.

Remarks. Edwards (1973) traced the development of the well-known Stegopoma
fastigiatum (Alder) and linked it to the medusa Modeeria rotunda (Quoy &
Gaimard). This is the only member of the genus Modeeria in which the hydranth
is known, and on it is based the diagnosis given above. Further knowledge of the
life-history of other species of Stegopoma (including the type species, S. plicitale)
is required in order to decide whether they also should be included in Modeeria
or whether the genus Stegopoma should be retained. Edwards transferred the
genus Modeeria from the Tiarannidae to the Laodiceidae.

One species only from South Africa.

Modeeria rotunda (Quoy & Gaimard, 1827)

Fig. 45A

Dianaea rotunda Quoy & Gaimard, 1827: 181, pl. 6A (figs 1-2).

Campanularia fastigiata Alder, 1860: 73, pl. 5 (fig. 1).

Tiaranna rotunda: Russell, 1953: 219, figs 117-119.

Stegopoma fastigiata: Millard, 1958: 175.

Modeeria rotunda: Edwards, 1973: 573, figs 1-3.

Diagnosis. Colony epizootic on other hydroids. Hydrorhiza creeping, giving
rise to solitary, pedicellate hydrothecae and gonothecae.

Hydrotheca 0,4-1,8 mm in length and 0,2-0,4 mm in maximum diameter,
not sharply demarcated from pedicel, which is smooth, and 0,1—1,2 times length
of hydrotheca. Hydranth with about 13 tentacles. Operculum as for genus.

Gonotheca similar to hydrotheca but wider, with very short, smooth
pedicel, containing a series of medusa-buds.

Medusa (not recorded from South Africa) at liberation deep and some-
what conical, with umbilical canal, four oral lips, four perradial marginal bulbs
with well-developed tentacles, four interradial and four or eight adradial
marginal bulbs which may bear rudimentary tentacles, about 2 mm in diameter

138 ANNALS OF THE SOUTH AFRICAN MUSEUM

and 1,5 mm in height. Adult medusa as for genus, reaching 22 mm in diameter,
with up to 28 marginal tentacles.

Variation. The size of the hydrotheca and length of its pedicel are notoriously
variable in this species.

Distribution. Cosmopolitan. Type locality: Straits of Gibraltar (medusa).

Distribution in South Africa. East coast, from Natal to Mocgambique, in 70
to 347 m. 30/31 (d), 29/31 (s, d), 26/33 (d), 24/35 (d)

Genus Opercularella Hincks, 1868

Diagnosis. Colony stolonial or sympodially branched. Hydrotheca pedicellate
and free, deep and tubular. Operculum of many converging segments, which
do not quite meet in the centre, and which are not sharply demarcated from the
hydrothecal wall. No nematothecae. Hydranth with no intertentacular web, or
if present, not well developed.

Gonophores in the form of fixed sporosacs.

Remarks. Rees (1939) advocated the retention of the genus Opercularella for
species previously assigned to Campanulina and*which produce fixed sporosacs,
and also (provisionally) those species in which the gonosome is unknown. The
only South African species falls in the latter category.

Type species: Campanularia lacerata Johnston, 1847.

Opercularella sp.
Fig. 45C-D
?Opercularella spec. no. 2: Vervoort, 1966b: 108, figs 8, 12b.

Diagnosis. Colony erect and branching sympodially, reaching 22 mm. Stem
fascicled in lower regions, straight, giving rise to branches and more-or-less
alternate hydrothecae, with occasional nodes immediately above origins of
hydrothecae. Branches similar to stem.

Hydrotheca pedicellate. Pedicel shorter than hydrotheca and not sharply
demarcated from it, more-or-less distinctly ringed or indistinctly wrinkled.
Hydrotheca tumbler-shaped, sometimes slightly swollen near base, with flaring
margin, 0,3-0,4 mm in depth from diaphragm and 0,16-0,19 mm in maximum
diameter. Operculum formed from distal part of hydrotheca which folds
longitudinally along 10-12 longitudinal striae. A thin diaphragm present.

Gonotheca unknown.

Distribution. Endemic to South Africa.

Distribution in South Africa. Type locality and only record: off Durban in 430 m.
29/31 (d)

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 139

~ “5
é

Fig. 45.

Modeeria rotunda. A, hydrothecae from different colonies, and gonotheca on extreme right.
Phialella turrita. B, hydrothecae and gonotheca, redrawn from VanhOffen (1910, as Campanulina
turrita).
Opercularella sp. C and D, redrawn from Vervoort (19665).
Scale: D in mm, the rest in mm/10.

140 ANNALS OF THE SOUTH AFRICAN MUSEUM

Genus Phialella Browne, 1902

Diagnosis. Colony stolonial or producing sympodially branched stems. Hydro-
theca minute, deep and conical, pedicellate and free, with an operculum of
many acute converging segments not sharply demarcated from hydrothecal wall.
Hydranth without intertentacular web. Nematophores absent. Gonophores
producing free medusae.

Medusa with small stomach, without peduncle, with four unbranched
radial canals, without excretory pores, with many hollow marginal tentacles,
without cirri, with eight closed statocysts, without ocelli. Newly hatched
medusa with four marginal tentacles. (Medusa family: Phialellidae.)

Remarks. The polyp generation is not known in the type species. The above
diagnosis is based on the polyp of P. quadrata (Forbes). This species was reported
by Allman (1864) to have a very shallow intertentacular web, but Russell (1953)
says this is not confirmed, and Huvé (1952) illustrates the tentacle bases without
a web.

Type species: Phialella falklandica Browne, 1902.
One polyp species only from South Africa.

Phialella turrita (Hincks, 1868)

Fig. 45B

Campanulina turrita Hincks, 1868: 190, pl. 36 (fig. 2). VanhGffen, 1910: 309, fig. 29.
Hypsorophus quadratus, forme turritus: Huvé, 1952: 39, figs 3-4.

Diagnosis. Stem bearing a single terminal hydrotheca or several hydrothecae
in a sympodial manner, two or three at a time; occasionally branching
sympodially; distinctly annulated throughout.

Hydrotheca deep, widening gradually upwards, 0,2-0,4 mm in depth and
0,10 mm in diameter. Operculum of short converging segments, about 4 depth
of hydrotheca. No diaphragm.

Gonotheca arising from hydrorhiza or stem, pear-shaped, containing
one medusa-bud.

Remarks. Vanh6ffen identified his material from South Africa as Campanulina
turrita Hincks. This species has been ascribed to Aequorea by Rees (1939) and to
Phialella (Hypsorophus) quadrata by Huvé (1952). Huvé’s identification was
queried by Rees & Thursfield (1965).

Vanh6offen’s material strongly resembles ‘Campanulina’ repens, the polyp
generation of Phialella quadrata. 1 have therefore included the species in the
genus Phialella, but have retained the specific name turrita pending further
information on the life-history.

Distribution outside South Africa. Great Britain (type locality), Mediterranean,
Greenland, Denmark, Falklands, New Zealand. (Phialella quadrata is known

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 141

from the Atlantic, Pacific and Indian Oceans, though it has not as yet been
reported from South Africa.)

Distribution in South Africa. Simonstown in False Bay. 34/18 (s)

Family Haleciidae

Diagnosis. Thecate hydroids with shallow, saucer- or basin-shaped hydrothecae.
Hydrotheca radially symmetrical, without operculum, with untoothed margin,
usually with diaphragm. Hydranth very large and usually not completely
retractable into hydrotheca, with conical hypostome and one circle of filiform
tentacles, endoderm differentiated into proximal digestive part and distal non-
digestive part. Nematophores present or absent. Gonophores in the form of
fixed sporosacs, or, rarely, freed as medusae.

Introduction. The majority of the Haleciidae have upright branching stems with
sympodial growth. The stems and their branches are divided into internodes,
each typically bearing a hydrotheca on an apophysis near its distal end. The
apophyses occur alternately on the right and on the left, so that the hydrothecae
form two longitudinal rows. The stem may be fascicled or unfascicled, but the
final branches are always unfascicled.

In the genera Hydranthea Hincks (1868) and Campalecium Torrey (1902),
which do not occur in South Africa, and in Hydrodendron cornucopia, which
does, the colony is stolonial. A stolonial form may also occur in normally erect
species.

The hydranths are always large. In Halecium they cannot be contained in
the shallow hydrothecae; in Hydrodendron, where the hydrothecae are a little
deeper, they can be almost or entirely contained. The base of the hydrotheca
generally contains a diaphragm on which the hydranth rests. The hydranth
is fastened to the wall of the hydrotheca above the level of the diaphragm by
coenosarcal strands, whose position is normally marked in the empty hydrotheca
by a ring of REFRINGENT NODULES. The gastral cavity of the living hydranth is
usually (and possibly always) divided by a transverse constriction into twc
distinct regions, the oral and the aboral or digestive. In some species of Hydro-
dendron, Hydranthea and Campalecium the bases of the tentacles may be attached
to one another by an intertentacular web. The web is absent in Halecium.

The hydrotheca may be sessile, with its base resting directly on the apophysis
and its adcauline wall usually adnate to the stem, or pedicellate. The pedicel is
normally of the same diameter as the hydrotheca and is not externally
demarcated from it. Regeneration is very common, resulting in tiers of hydro-
thecae arising one within the other. The secondary hydrothecae may differ
from the primary one in the presence of a pedicel; for instance in Halecium
beanii the primary hydrotheca is sessile and the secondary hydrothecae have
pedicels of a characteristic shape. In the literature the hydrotheca plus its pedicel
are often referred to as a HYDROPHORE. In the diagnoses of species which follow,

142 ANNALS OF THE SOUTH AFRICAN MUSEUM

adcauline side refringent nodules

abcauline side
A. ~ diaphragm

‘___pseudodiaphragm

secondary hydrotheca

ES
LP primary hydrotheca

hydrophore
pedicel

apophysis

internode

Fig. 46.

Haleciidae: parts of the skeleton. On the left a sessile hydrotheca with straight walls, on the
right a pedicellate and regenerated hydrotheca with everted wails.

the depth of the hydrotheca is measured from the diaphragm to the margin.
In some species a thickened shelf of perisarc may occur below the base of the
hydrotheca in the pedicel and is usually better developed on one side than the
other. This is termed a PSEUDODIAPHRAGM, e.g. Halecium delicatulum, Halecium
?muricatum.

Nematophores are present in the genus Hydrodendron. The nematothecae
are one-chambered, minute, cup-like or tubular, often without any regular
arrangement.

In the genus Hydranthea the gonophores are naked. Generally, however,
they are enclosed in gonothecae, which are generally dioecious. In some species
of Halecium the female gonophores are very obviously modified hydranths.
In H. beanii and H. dichotomum two well-developed hydranths protrude through
the opening of the gonotheca. In H. delicatulum a hydranth is recognizable,
through completely contained within the gonotheca and without mouth and
tentacles. In other species, e.g. H. tenellum, and in the males of all species the
resemblance to a hydranth is lost.

In snost genera the gonophores take the form of fixed sporosacs. In Cam-
palecium, however, the gonophores release free medusae, and in the only species
of the genus, C. microtheca (= C. medusiferum), the medusa was shown by
Brinckmann (1959) to be Eucheilota (Lovenella) cirrata, a member of the Cam-
panulinidae. This suggests a relationship between the Campanulinidae and the
Haleciidae and it is possible that the latter arose from the former by the loss
of the operculum and distal part of the hydrotheca in the polyp generation.
This is supported by the fact that in certain campanulinids, e.g. Eucheilota
maculata, Eutonina indicans and Aequorea africana (Werner 1968; Millard 1966a)
the distal part of the hydrotheca may be sloughed off in older colonies leaving a
shallow, basin-shaped structure similar to the hydrotheca of the Haleciidae
and complete with diaphragm and refringent nodules. The relationship between

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 143

these two families is further supported by the presence of an intertentacular web
in certain members of both and by some similarities in the cnidome.

In some of the species of Hydrodendron with deeper hydrotheca and with
nematothecae, e.g. H. gracilis and H. cornucopia, the structure of the colony
approaches very closely that in some Plumulariidae and Lafoeidae and it may
be difficult to draw a dividing line between these families.

KEY TO GENERA

[Genera not represented in South Africa are bracketed]

1. Nematophores present Be a a - ae Hydrodendron jor. Shes
— Nematophores absent a ie A 42 P. ae ee a 2
2. Colony stolonial Sh bye sy a oe a Re ae, - 3
— Colony with erect stem es ae ae we = : oe Ws 4
3. Producing medusae as es es aN M [Campalecium]
— Producing fixed sporosacs .. f ae Le [Hydranthea]
4. Hydrothecae borne on stem and BR ache es i We Halecium p. 143
— Hydrothecae borne on branches only “a ae i [Hemitheca]

Genus Halecium Oken, 1815

Diagnosis. Colonies generally upright with sympodial growth. Stem (and
branches when present) bearing two rows of alternate hydrothecae, divided
into internodes, each internode with a hydrotheca-bearing apophysis near
distal end. Hydrotheca sessile or pedicellate, shallow, basin- or saucer-shaped,
with delicate diaphragm and generally a ring of refringent nodules above it.
Regeneration common, resulting in tiers of secondary hydrothecae growing
from within the primary. Hydranth large, without intertentacular web. Nema-
tophores absent. Gonophores in the form of fixed sporosacs contained in
gonothecae. Gonothecae solitary, not aggregated, male and female usually
dissimilar and on separate colonies.

Type species: Sertularia halecina Linnaeus, 1758.

KEY TO SPECIES

. Hydrothecal wall straight, usually widening to et but never ev’ sted aS ee
Hydrothecal wall asd ae ee 5 ae ae had oie ae Beal,
. Hydrotheca deep (dept o nag tn darieten : un .. H. dyssymetrum
Hydrotheca shallow een ‘less than + marginal diameter) ie ane cas 3
. Female gonotheca with lateral opening containing two aes ae a Serene
Female gonotheca with terminal opening . ee ue 5 aa
. Hydrotheca not widening to margin. Paanetls Beecinely with infer: feene aperture
on concave side bs H. sessile
Hydrotheca widening to margin. Female gonotheca with distal- facing aperture on
concave side .. 3 >
. Stem fascicled, ste any riche with aomnecie offset allennniely to ohe aaa left,
not narrowed or corrugated at nodes : H. beaniti

Stem unfascicled, geniculate and bent alternately to left and right below each node.
with hydrothecae not offset, constricted at nodes and immediately above them
H. lankesteri

144 ANNALS OF THE SOUTH AFRICAN MUSEUM

6. Female gonotheca slender, usually curved, containing several eggs in one row
H. halecinum
— Female gonotheca compressed, oval in side view, containing one egg H. inhacae

7. Stem unfascicled, short (under 7 mm). Hydrotheca with wall strongly everted through-
out, small (diameter at margin under 0,18 mm). No pseudodiaphragm. Female
gonotheca smooth, compressed-ovoid, with terminal aperture and no hydranths
H, tenellum
— Stem fascicled ae be SP i

8. Hydrotheca deep (depth over 3 Ddismeteny Bara, Rydothecs pedicellate, pedicel
separated from apophysis by node Hydrothecal wall strongly everted in marginal
region. Usually two pseudodiaphragmata. (Female gonotheca ridged and spiny)

A. 2muricatum
Hydrotheca shallow (depth less than 4+ diameter) Pe a - esa)

9. Primary hydrotheca usually sessile. Hydrothecal wall usually everted only at margin.
No pseudodiaphragm. Female gonotheca annulated, with lateral opening and two
hydranths . H. dichotomum
— Primary hydrotheca ‘pedicellate, pedicel ‘not separated from “apophysis by node.
Hydrothecal wall strongly everted throughout. Usually one pseudodiaphragm.
Female gonotheca smooth, flat and eared, containing one reduced hydranth without
tentacles Ne ke te a ie oe: ae, he Hi. delicatulum

Halecium beanii (Johnston, 1838)
Fig. 47A-E
Thoa beanii Johnston, 1838: 120, pl. 7 (figs 1-2).
Halecium beanii: Hincks, 1868: 224, pl. 43 (fig. 2). Ralph, 1958: 332, fig. 10a—b, e-k. Vervoort,

19666: 103, fig. 3. Millard, 1966a: 464, fig. 9A-F. Vervoort, 1972: 30, figs 6-7.
Diagnosis. Colonies shrubby and stiff in appearance, 10-70 mm in height. Stem
fascicled, branching irregularly or in a roughly alternate manner, segmented,
usually straight, each internode giving rise to a hydrotheca from an apophysis
near the distal end, the two rows of hydrothecae in one plane or shifted onto
the anterior surface of the stem. No annulation of internodes. Branches arising
from below or within hydrothecae, often rebranching many times.

Primary hydrothecae sessile. Secondary hydrothecae pedicellate. Pedicel
typically with a constriction immediately above origin, gibbous above this, then
narrowed and then widening gradually to distal end. Hydrotheca shallow, with
straight sides, widening to margin, which is not everted, 0,03-0,05 mm in depth
and 0,13-0,17 mm in marginal diameter. Diaphragm delicate, with a ring of
refringent nodules immediately above it.

Male gonotheca spindle-shaped, smooth, without hydranths. Female
gonotheca ‘mitten-shaped’, elongated and curved, with distal-facing aperture in
centre of concave side, smooth, with two fully-formed hydranths emerging from
aperture, containing a single row of large eggs.

Variation. The stem is occasionally slightly geniculate and the nodes are very
variable in length.

The secondary hydrothecae normally bend away from the stem, due to the
asymmetrical development of that part of the pedicel below its constriction,
which is longer on the adcauline side. That part above the constriction may be

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 145

symmetrical or asymmetrical, the latter condition due to unequal development
of the bulge near the base or to curvature of the whole pedicel. Likewise, the
hydrothecal margin may be perpendicular to the axis of the pedicel, though it is
more often oblique and tilted towards the adcauline side.

The female gonothecae sometimes tend to be S-shaped, with the proximal
end convex on the adcauline side.

Remarks. There is no certain way of distinguishing H. beanii from H. halecinum
in the absence of female gonothecae. Both species occur in South Africa. In the
distribution which follows, therefore, all records without female gonothecae,
including those from the literature, have been disregarded. The species is cer-
tainly far more common than is indicated, and sterile material, probably of
this species, has been found as far north as Inhambane on the east coast (23/35).

Distribution. Cosmopolitan. Type locality: near Scarborough, England.

Distribution in South Africa. From Lideritz Bay, South West Africa, on the
west coast to the northern boundary of the Cape on the east coast, littoral to
157 m. 26/15 (s), 33/17 (s, d), 33/18 (, s), 34/18 (s), 34/19, 34/22 (s), 33/25 (s),
34/25 (Ss); 33/26 (s), 33/27 (s), 32/28 (s), 31/29

Halecium delicatulum Coughtrey, 1876
Fig. 47F-L
Halecium delicatulum Coughtrey, 1876: 26, pl. 3 (figs 4-5). Ralph, 1958: 334, fig. lle, h—-n,
12 a—p. Millard, 1966a: 464, fig. 10L. Vervoort, 1972: 27, figs 4-5.
Halecium flexile Allman, 1888: 11, pl. 5 (fig. 2).
Halecium gracile Bale, 1888: 759, pl. 14 (figs 1-3).
Halecium parvulum Bale, 1888: 760, pl. 14 (figs 4-5). Millard, 1957: 189, fig. 4A. Vervoort,

1959: 227, fig. 7.

Halecium parvulum, var. magnum Millard, 1957: 190, fig. 4B—O.

Diagnosis. Colony stiff and bushy, reaching 190 mm in height. Stem usually
fascicled, profusely and irregularly branched, segmented, each internode giving
rise to a hydrotheca from an apophysis near the distal end, the two rows of
hydrothecae usually in one plane. Branches arising from hydrothecal pedicels,
smaller ones flexuous and graceful.

Primary hydrotheca pedicellate; pedicel variable in length, tubular, con-
tinuous with stem apophysis and not demarcated from it by a node. Secondary
hydrotheca pedicellate; pedicel tubular, often constricted or annulated at base.
Primary and secondary pedicels commonly with a pseudodiaphragm which is
better developed on adcauline side. Hydrotheca shallow, with wall strongly
everted, more so on adcauline side, 0,03-0,08 mm in depth and 0,13-0,4 mm
in marginal diameter. Diaphragm delicate, with a ring of refringent nodules
immediately above it. Margin usually perpendicular to axis of pedicel.

Gonothecae arising from stem or hydrorhiza. Male gonotheca compressed,
elongate-oval in side view, smooth, without hydranths; when immature flat-
tened and disc-shaped. Female gonotheca large, compressed, smooth, elongate-

46 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 47.

Halecium beanii. A, stem with female gonothecae: B and C, regenerated hydrothecae; D, male
gonophore; E, female gonophore.

Halecium delicatulum. F and G, parts of stem from small form (F) and large form (G); H, male
gonophore; J—L, female gonophores, the first two showing hydranths, the third containing
planulae.

Scale: H-L in mm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 147

oval in side view with two distal ‘ears’ and between them a small terminal
aperture at the base of an inverted collar; when immature flattened-oval with
rounded distal end. Female gonotheca containing a single reduced hydranth
without mouth or tentacles and bearing eggs, three or four of which mature into
planulae.

Variation. This species is capable of great variation in size and the following
forms can be distinguished:

(i) Small form. Marginal diameter of hydrotheca under 0,25 mm. Mature female

gonotheca under 1,5 mm in length.

(ii) Large form (var. magna Millard 1957). Marginal diameter of hydrotheca

over 0,25 mm. Mature female gonotheca over 1,5 mm in length.

The growth-form also varies, from luxuriant heavily-fascicled colonies to
small unfascicled ones. Sometimes interconnection of the superficial tubes of
the stems results in a tangled formless mass. In all cases, however, the smaller
branches have a more delicate and flexuous appearance than, for instance, in
H. beanii. The stem may be straight or zigzag, the internodes long or short,
and there is usually an indication of annulation or twisting in the neighbourhood
of the nodes. Occasionally athecate internodes may occur.

The pedicels of the hydrothecae may be straight or curved, and the greater
development of the pseudodiaphragm and curvature of the hydrothecal wall
on the adcauline side may impose a bilateral symmetry.

Male and female gonothecae change in shape during development, and
abnormalities sometimes occur, such as the presence of two apertures and two
reduced hydranths in the female.

Distribution outside South Africa. Circumglobal in tropics and southern oceans,
extending northwards to Japan in the Pacific and Morocco in the Atlantic,
and southwards to the Antarctic. Type locality: Dunedin (New Zealand).

Distribution in South Africa. From the west coast of the Cape Province to
Mocgambique, very common in False Bay and on the Agulhas Bank, littoral to
219 m. 30/15 (d), 32/18 (s), 33/17 (s), 33/18 Cl, s), 34/18 (I, s, d), 34/20 (s), 34/21
(d), 35/21 (d), 34/22 (s), 35/22 (d), 34/23 (d), 33/25 (s), 34/25 (s), 33/26 (s),
33/27 (s), 33/28 (s), 32/28 (s), 31/29 (s), 29/31 (d), 26/35 (d), 24/34 (s), 24/35 (s)

Halecium dichotomum Allman, 1888
Fig. 48A—G

Halecium dichotomum Allman, 1888: 13, pl. 6. Millard, 1957: 188. Millard, 1966a: 466, fig.
10A-K.

Diagnosis. Colonies varying from tall and robust to low and scrubby. Stem
fascicled, fairly stiff, though unable to support itself out of fluid, segmented,

typically branching repeatedly in a dichotomous manner in which two, or
occasionally three, equally developed limbs arise at the same level from curved

148 ANNALS OF THE SOUTH AFRICAN MUSEUM

apophyses near the distal ends of the internodes. Hydrothecae terminating
internodes. Smaller branches flexuous and usually geniculate.

Primary hydrothecae normally sessile. Secondary hydrothecae pedicellate.
Pedicel more or less symmetrical, usually annulated in basal region and then
widening to distal end. Hydrotheca shallow and wide, with wall usually straight
and widening towards margin for most of its height, then sharply everted,
0,03-0,05 mm in depth and 0,18-0,3 mm in marginal diameter. Margin usually
perpendicular to axis of internode or pedicel. Diaphragm delicate, with a ring
of refringent nodules immediately above it.

Male gonotheca slender, tapering to distal aperture, sometimes curved,
annulated for all or most of length. Female gonotheca mitten-shaped, with
rounded distal end and distal-facing aperture on one side, closely annulated,
with two fully-formed hydranths emerging from aperture, containing two or
three large eggs.

Variation. The hydrorhiza is smooth, annulated or roughly corrugated, and in
epizootic colonies is capable of putting out rootlike projections to anchor the
colony.

The growth-form and general appearance of the colony is very variable

and all grades between the following extremes may occur:

(i) Large upright colonies reaching 110-120 mm in height, with strongly fas-
cicled stems and branching mainly in one plane. Main stem more or less
straight and dichotomy not obvious, due to the fact that one limb is enveloped
by the peripheral tubes and contributes to the axis of the stem, while the
other is short and forms a branch. Larger stems and branches stiff in appear-
ance and up to 2 mm thick, though unable to support themselves out of
fluid. Smaller branches graceful and flexuous. Stem and branches with long
internodes with no annulation other than a shallow constriction near base.
Secondary hydrothecae scarce.

(ii) Low, scrubby colonies, often epizootic, reaching a height of 10-20 mm.
Stem usually weakly fascicled and strongly geniculate. Branching profuse
and in all planes, and stolonization common resulting in a tangled mat which
may cover large areas of the substratum and is very easily recognized. Dicho-
tomy very obvious. Internodes of stem and branches shorter and more annu-
lated. Secondary hydrothecae abundant and pedicels often closely annulated
in basal regions.

The shape of the hydrotheca is also variable. Typically the wall is straight
until close to the margin where it suddenly flares out, but the flaring may be
much more extensive resembling that in H. delicatulum, or the flared-out
portion may be largely worn off in old colonies. Variations in the shape of the
pedicels of secondary hydrothecae and in the angle of the margin may also occur.
Primary hydrothecae often have quite long pedicels. The perisarc is typically
thin and a pseudodiaphragm only rarely occurs.

Solitary, pedicellate hydrothecae may also arise separately from the
hydrorhiza.

Distribution. Endemic to South Africa. Type locality: Simon’s Bay, Cape.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 149

\

()

x Cexgl K

\

ial “

Fig. 48.

Halecium dichotomum. A-C, regenerated hydrothecae; D, part of stem showing unilateral
branching; E, part of stem showing dichotomous branching; F, female gonophore;
G, male gonophore.
Halecium dyssymetrum. H, part of stem; J, hydrotheca.
Halecium sessile. K—M, parts of stem, redrawn from Vervoort (19668).
Scale in mm/10.

150 ANNALS OF THE SOUTH AFRICAN MUSEUM

Distribution in South Africa. All round the coast from Liideritz Bay in South
West Africa to Mocambique, in 11-200 m. 26/15, 32/18 (s), 33/17 (s), 34/18 (s),
34/20 (s), 34/21, 35/21 (d), 34/22 (s), 35/22 (d), 34/23 (s, d), 34/24 (d), 33/25 (s),
34/25 (s, d), 33/26 (s), 33/27 (s), 32/28 (s), 33/28 (Ss), 29/31 (s, d), 24/34 (s)

Halecium dyssymetrum Billard, 1929
Fig. 48H, J
Halecium dyssymetrum Billard, 1929: 307, fig. 1C. Leloup, 1935: 8, fig. 1.

Diagnosis. Stem under 10 mm in height, unfascicled, unbranched, segmented,
slightly geniculate, each internode giving rise to a hydrotheca from an apophysis
near the distal end, the two rows of hydrothecae in one plane. No annulation of
internodes.

Primary hydrothecae sessile. Secondary hydrothecae with assymetrical
pedicels widening distally and usually bent outwards. Hydrotheca deep, widening
to margin, which is not everted, 0,13-0,17 mm in depth and 0,2-0,3 mm in
marginal diameter. Diaphragm very thick and pronounced, more so on adcau-
line side. Base of hydranth attached above diaphragm and attachment marked
by a ring of refringent nodules, each of the latter shaped like an Indian wigwam.

Gonothecae unknown.

Distribution outside South Africa. Dutch East Indies (type locality), West Indies.

Distribution in South Africa. One record only, from off Mogambique in 55 m.
24/34 (s)

Halecium halecinum (Linnaeus, 1758)
Fig. 49A-E
Sertularia halecina Linnaeus, 1758: 809.
Halecium halecinum: Hincks, 1868: 221, pl. 42. Broch, 1909: 144, figs 4-5. Vervoort, 1946a:

158, figs 63-64. Millard, 1966a: 468, fig. 9G—-L.
Diagnosis. Stem under 10 mm in height (but see under ‘Variation’ below),
fascicled or unfascicled, branched or unbranched, segmented, straight or slightly
geniculate, each internode giving rise to a hydrotheca from an apophysis near
the distal end, the two rows of hydrothecae in one plane or shifted on to the
anterior surface of the stem. No annulation of internodes.

Primary hydrothecae sessile. Secondary hydrothecae pedicellate. Pedicel
typically with a constriction immediately above origin, gibbous above this
and then widening gradually to distal end. Hydrotheca shallow, with straight
sides, widening to margin, which is not everted, 0,03-0,05 mm in depth and
0,i2-0,15 mm in marginal diameter. Diaphragm delicate, with a ring of
refringent nodules immediately above it.

Male gonothecae (not recorded from South Africa) spindle-shaped,
smooth, without hydranths. Female gonotheca elongate, usually curved,
widening slightly to distal end, which is truncated and bears a terminal aperture

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 151

on the adcauline side, smooth, with two fully-formed hydranths emerging from
aperture, containing a single row of 2-4 large eggs or planulae.

Variation. The only certain records from South Africa are stunted colonies, but
tall, rigid and pinnately branched stems occur in the North Atlantic reaching
100-200 mm or more in height. The terminal branches are said to be stiffer
than in H. beanii and the whole colony much more regularly branched and
less ’bushy’.

The hydrothecae are indistinguishable from those of H. beanii, but second-
ary hydrothecae and their pedicels are always asymmetrical, due either to
unequal development of the proximal part of the pedicel, or to curvature of the
whole pedicel away from the stem, The margin of the secondary hydrotheca is
usually oblique to the axis (tilted towards the adcauline side) and seldom
perpendicular as is said to be the rule for the species.

Remarks. As in the case of H. beanii this species is probably more abundant
than is indicated by the records, since samples without female gonothecae have
been disregarded, including that of Ritchie (19075) from South Africa, who had
only male gonothecae which might easily be confused with H. beanii.

Distribution outside South Africa. Certainly from the North Sea, North Atlantic
and Arctic, but probably much more widespread. Type locality: U.K.

Distribution in South Africa. Agulhas Bank in 27 m and Inhaca, 10-15 m.
33/27 (s), 26/32 (s)

Halecium inhacae Millard, 1958
Fig. 49F-H
Halecium inhacae Millard, 1958: 168, fig. 1.

Diagnosis. Colony small and inconspicuous, reaching 4 mm in height. Hydro-
rhiza with internal thickenings of perisarc. Stem unfascicled, usually unbranched,
with segmentation inconspicuous or absent, slightly geniculate. Hydrothecae
arising from short apophyses of stem, one to an internode where these are evi-
dent, the two rows in one plane. Perisarc heavy, with thickened internal ridges
giving a corrugated appearance.

Primary hydrothecae sessile. Secondary hydrothecae with asymmetrical
pedicels which are curved or bent away from stem. Hydrotheca shallow, with
straight sides, widening slightly to margin, which is not everted, 0,03-0,04 mm
in depth and 0,13-0,17 mm in marginal diameter. Diaphragm delicate, with a
ring of refringent nodules about midway between diaphragm and margin. Walls
markedly thickened just below level of diaphragm, more so on adcauline side.
Hydranth with about 19 tentacles.

Male gonotheca unknown. Female gonothecae borne generally on hydro-
rhiza, occasionally on stem, in the latter case emerging from within the hydro-
thecae, laterally compressed, broadly oval in side view, smooth, with terminal

1S2 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 49.

Halecinum halecinum. A—D, hydrothecae; E, female gonophore.
Halecium inhacae. F, stem with female gonotheca; G, hydrothecae; H, female gonophore.
Scale in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 153

aperture on adcauline side through which two hydranths emerge, containing a
single egg or planula.

Distribution. Endemic to South Africa.

Distribution in South Africa. Type locality and only records: Inhaca Island,
littoral. 26/32 (1, s)

Halecium lankesteri (Bourne, 1890)
Fig. SOB-E

Haloikema lankesteri Bourne, 1890: 395, pl. 26 (figs 1-2).
Halecium lankesteri: Broch, 1933: 16, figs 3-4. Hamond, 1957: 302, figs 9-11. Vervoort, 1959:
221, figs 3-5. Millard, 1968: 257, fig. 1.

Diagnosis. Colony erect or stolonial. Erect stem reaching 5 mm in height,
unfascicled, branching irregularly, segmented, each internode giving rise to a
hydrotheca from an apophysis near the distal end, the apophysis and hydrotheca
lying in the same axis as the proximal part of the internode and the rest of
the internode bent sharply outwards and upwards, the stem thus geniculate with
the elbows below the nodes. Stem constricted at each node and immediately
above. Stolonial form with hydrophores arising direct from hydrorhiza, usually
regenerated many times.

Primary hydrothecae sessile. Secondary hydrothecae pedicellate. Pedicel
usually constricted immediately above origin, bulging above this, then widening
to distal end. Hydrotheca shallow, with straight sides, widening markedly to
margin, which is not everted, 0,02-0,04 mm in depth and 0,10-0,15 mm in
marginal diameter. Diaphragm delicate.

Gonothecae borne on stem or hydrorhiza. Male sausage-shaped, some-
times curved, smooth. Female similar to that of H. beanii, but shorter and
broader, curved, with obliquely distal-facing aperture on concave side, smooth,
with two fully-formed hydranths emerging from aperture, containing two or
three large eggs in a row.

Variation. Branching is very irregular and not necessarily in one plane. Branches
usually arise from the distal end of an internode and curve outwards and
upwards from the base, sometimes giving a dichotomous effect. The length of the
internodes is very variable and many irregularities occur.

Distribution outside South Africa. Adriatic Sea, North Atlantic, Mediterranean,
tropical West Africa. Type locality: Plymouth, England.

Distribution in South Africa. Mocgambique: Inhaca to Santa Carolina, inter-
tidal. 25/32 (1), 21/35

Halecium 2muricatum (Ellis & Solander, 1786)

Fig. SOA

Sertularia muricata Ellis & Solander, 1786: 59, pl. 7 (figs 3-4).
Halecium muricatum: Hincks, 1868: 223, pl. 43 (fig. 1). Jaderholm, 1909: 59, pl. 5 (figs 4-6).
Broch, 1909: 146, fig. 6. Millard, 1966a: 469, fig. 11A—B. Vervoort, 1972: 27, fig. 3b—d.

154 ANNALS OF THE SOUTH AFRICAN MUSEUM

Diagnosis. Stems reaching 47 mm in height, fairly stiff, fascicled in basal region,
unbranched or branching in an irregularly pinnate fashion, segmented, usually
straight though sometimes weakly geniculate in distal region, each internode
giving rise to a hydrotheca from an apophysis near the distal end, the two rows
of hydrothecae in one plane. No annulation of internodes.

Primary hydrotheca pedicellate. Pedicel long (at least three times the depth
of the hydrotheca) and separated from the stem apophysis by a distinct node,
usually asymmetrical and more convex on adcauline side, containing at least
one and usually two pseudodiaphragmata. Secondary hydrotheca pedicellate,
the pedicel similar to that of the primary though shorter and usually with only
one pseudodiaphragm. Hydrotheca deep, widening to margin, which is strongly
everted, more so on adcauline side, 0,08—0,14 mm in depth and 0,2-0,3 mm in
marginal diameter. Diaphragm delicate, with a ring of refringent nodules
immediately above it.

Gonothecae (not reported from South Africa) similar in the male and
female, compressed-ovate, with radiating ridges bearing spines, without
hydranths.

Variation and remarks. The identification of this species cannot be certain until
confirmed by the gonothecae.

In the South African material the fascicled parts of the stems are matted
together in the lower part of the colony by coalescence or crossing over of the
superficial tubes. From this region graceful, unfascicled stems arise with regul-
arly alternating hydrothecae. These stems are either unbranched or branch in a
roughly pinnate manner. The branches may replace hydrothecae, but more
usually arise from the anterior or posterior face of a hydrothecal pedicel,
then curve to conform to the plane of the colony.

The node separating the primary hydrotheca from the stem apophysis is
sometimes incomplete.

Distribution outside South Africa. Arctic (circumpolar), North Pacific, North
Atlantic.

Distribution in South Africa. Rare on the south coast, from Table Bay to east
of Port Elizabeth in 0-46 m. 33/18 (s), 34/18 (s), 33/26 (s)

Halecium sessile Norman, 1867
Fig. 483K-M

Halecium sessile Norman, 1867: 196. Billard, 1904a: 157, pl. 6. Ralph, 1958: 331, figs 9h-i,

10c—d. Vervoort, 19665: 100, fig. 1.
Diagnosis. Stem reaching 25 mm, fascicled in lower part, branching irregularly,
segmented, geniculate, each internode giving rise to a hydrotheca from an
apophysis near the distal end. No annulation of internodes. Branches arising
from below hydrothecae.

Primary hydrotheca sessile, but with adcauline wall free from stem. Second-

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 155

Fig. 50

Halecium ?muricatum. A, part of stem.
Halecium lankesteri. B and C, parts of stem with hydrophores; D, stem with female gonophore;
E, male gonophore.
Halecium tenellum. F anda G, female gonophores containing planulae; H, male gonophore;
J-L, parts of stem.
Scale in mm/10.

156 ANNALS OF THE SOUTH AFRICAN MUSEUM

ary hydrotheca pedicellate. Pedicel with one or two nodes near base, then
widening gradually to distal end. Hydrotheca shallow, with straight sides,
normally not widening to margin, which is not everted, 0,01-0,03 mm in depth
and 0,12-0,14 mm in marginal diameter. Secondary hydrotheca shallower on
adcauline than on abcauline side. A ring of refringent nodules about midway
between diaphragm and margin.

Gonothecae not reported from South Africa. Male elongated, smooth,
with rounded summit and no hydranths, bearing spermatogenic cells along
one side of spadix. Female kidney-shaped, short, with laterally facing aperture
on concave side, smooth, with two fully-formed hydranths emerging from
aperture, containing a single row of eggs or planulae.

Distribution. Cosmopolitan. Type locality: Hebrides.
Distribution in South Africa. Off Durban, in 425-430 m. 29/31 (d)

Halecium tenellum Hincks, 1861
Fig. SOF—L
Halecium tenellum Hincks, 1861: 252, pl. 6 (figs 1-4). Vervoort, 1959: 229, fig. 8. Millard,

1957: 193, fig. 5. Vervoort, 19665: 102, fig. 2. Millard, 1966a: 471, fig. 11C—F.
Diagnosis. Colonies small and usually epizootic on other hydroids, under 7 mm
in height. Stem unfascicled, slender, unbranched or sparsely branching, seg-
mented, geniculate. Hydrothecae arising from short apophyses of stem near the
distal ends of the internodes. A constriction usually present above and below
each node.

Primary hydrotheca sessile or with short pedicel. Secondary hydrotheca
pedicellate. Pedicel symmetrical or asymmetrical, constricted near base and
widening slightly to distal end. Hydrotheca shallow, with wall widening to
margin and strongly everted, 0,02-0,05 mm in depth and 0,11-0,17 mm in
marginal diameter. Diaphragm delicate, with a ring of refringent nodules
immediately above it.

Male and female gonothecae on separate colonies, arising from stem or
hydrorhiza. Male gonotheca compressed, smooth, elongate-oval in side view,
with pointed distal end, without hydranths. Female gonotheca compressed,
smooth, pear-shaped in side view, with terminal aperture on a papilla seated
in a circular depression, without hydranths, containing a cluster of 2-7 eggs or
planulae.

Variation. This minute species is extremely variable in its growth-form, yet
easily recognizable. The typical form has a regular geniculate stem with long,
slender internodes, each bearing a hydrotheca on its summit. Some of the South
African material is of this type, but more often the stem contains a number of
intervening athecate internodes, often a whole series one after another. In small
epizootic colonies a single hydrotheca often tops a stem made up solely of
athecate internodes, of which the terminal one resembles a secondary pedicel.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 157

Athecate internodes may be due to regeneration after injury and are especially
characteristic of this species. Regeneration by the production of tiers of
secondary hydrothecae is also very common.

Branches, when they occur, arise from below the hydrothecae and are often
as long as the main stem, giving a subdichotomous effect with an acute angle
between the limbs. Branches sometimes arise in pairs.

The hydrotheca is always small and delicate with the margin strongly
everted. The everted part is very thin and may be held straight out, curled under,
or is occasionally worn right off.

Distribution. Cosmopolitan. Type locality: Salcombe Bay, U.K.

Distribution in South Africa. Occurring irregularly along the south and east
coasts from False Bay to Mocambique, littoral to 120 m, with one deeper record
from Natal (495 m) by Vervoort (1966b). 34/18 (s), 35/19 (s), 34/22 (s), 34/23
(S53) 250(s)) 35/26 (d), 33/27 G), 32/28 (); 31/29 @), 29/31 Gd), 28/32 G),
25/32 (s), 26/32 (s)

Genus Hydrodendron Hincks, 1874

Syn. Ophiodes Hincks, 1866.
Diplocyathus Allman, 1888.
Phylactotheca Stechow, 1913.
Ophiodissa Stechow, 1919.

Diagnosis. Colony erect or stolonial. Erect stem usually bearing two rows of
alternate hydrothecae; divided into internodes, each with a hydrotheca-bearing
apophysis near distal end. Hydrotheca pedicellate, basin- or cup-shaped, with
delicate diaphragm and usually a ring of refringent nodules above it. Hydranth
constricted immediately below tentacles, with or without intertentacular web
between tentacle bases. Nematophores present, enclosed in one-chambered
nematothecae. Gonophores in the form of fixed sporosacs contained in gono-
thecae. Gonothecae solitary or, rarely (not in South African species), aggregated
into a coppinia.

Type species: Halecium gorgonoide G. O. Sars, 1874

KEY TO SPECIES

1. Colony stolonial (hydrophores arising from hydrorhiza) Bi ie ae ne os
— Colony with erect stem bearing hydrophores a ae ie (eS
2. Hydrophores cornucopia-shaped, each bearing one enn alice H. cornucopia
— Hydrophores deep-campanulate, nematothecae on hydrorhiza only H. caciniformis
3. Diaphragm straight; hydrotheca shallow, with diameter at least twice depth : 4
— Diaphragm oblique; hydrotheca deep, with diameter agree ale to depth

on deeper side ; 5
4. Hydrotheca Sees pulccly aon main cua al axis of stem. Gentine:

smooth or lightly corrugated ..__H. caciniformis
— Hydrotheca terminal, secondary hydrophore arising from lateral apophysis. Gono-

theca deeply annulated ahs , : ms H. sympodiformis
5. Nematothecae curved, one on each hydrothecal pedicel. : H. gracilis

Nematothecae Coes shaped, never on primary pedicel (though may 0 occur on regene-
rated pedicel) . ae si ie ny * es ae “) H. gardineri

158 ANNALS OF THE SOUTH AFRICAN MUSEUM

Hydrodendron caciniformis (Ritchie, 1907)
Fig. 51

Ophiodes caciniformis Ritchie, 1907a: 500, pl. 23 (figs 11-12), pl. 24 (fig. 1), pl. 25 (fig. 5).
Diplocyathus caciniformis: Leloup, 1939: 4, fig. 3.
Hydrodendron caciniformis: Millard, 1957: 186, fig. 3. Ralph, 1958: 342, figs 13b-c, 14a.

Mammen, 1965a: 7, fig. 34. Millard, 19665: 490, fig. 1.

Ophiodissa caciniformis: Vervoort, 1959: 218, figs 1-2.

Diagnosis. Colony erect or stolonial, usually growing on weed. Hydrorhiza
reticulate; perisarc with internal projections. Erect stem under 10 mm in height,
unfascicled or weakly fascicled at base, occasionally branched, segmented, each
internode giving rise to a hydrotheca from an apophysis near the distal end.
The two rows of hydrothecae in one plane or shifted slightly onto anterior
face. Stolonial form with solitary hydrothecae arising directly from the
hydrorhiza and supported by 1-3 short internodes.

Hydrotheca pedicellate, often with regeneration nodes between the stem
apophysis and the pedicel. Pedicel deeper than hydrotheca, usually somewhat
turgid near base and expanding slightly towards distal end. Hydrotheca with
flaring wall and everted margin, 0,05—0,12 mm in depth and 0,14-0,2 mm in
marginal diameter. Diaphragm very delicate, straight. A ring of refringent
nodules usually about one third of the height above diaphragm. Hydranth with
19-23 tentacles.

Nematothecae borne on hydrorhiza, stem internodes or hydrothecal
pedicels, random in occurrence, sessile, goblet-shaped, with everted margin,
sometimes bilaterally symmetrical.

Gonotheca borne on hydrorhiza, elongated, widening to just below trun-
cated distal end, smooth or with rather indistinct transverse annulations, reach-
ing 0,8 mm in length and 0,3 mm in diameter.

Variation. The perisarcal projections in the hydrorhiza are not regular an are
more numerous in some regions than in others.

The erect form of the colony is more usual than the stolonial form, though
fair numbers of stolonial hydrothecae are often encountered among the erect
stems. Two entirely stolonial colonies have been found. Stronger stems have
been recorded from outside South Africa, and Ralph records strongly fascicled
stems of 22 mm with regularly subalternate branches arising below every third
and fourth hydrotheca from New Zealand. In some stems there is a suggestion
of an annulation in the form of a constriction above and below each node.

Secondary hydrothecae may arise from primary ones, not from within them
as in Halecium, but from the sides of the pedicels or the regenerated internodes
below them. This, indeed, is the way in which branches originate. Reduplicated
margins are very rare.

Pseudodiaphragmata may occur, particularly in regeneration internodes and
in the hydrothecal pedicels; they are usually better developed on the adcauline
side.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 159

Fig. 51.

Hydrodendron caciniformis. A, stem; B and C, parts of stem with hydrophores and nema-
tothecae; D and E, male and female gonophores (material from Vema Seamount);
F, living hydranths and nematophores.

Scale in mm/10.

160 ANNALS OF THE SOUTH AFRICAN MUSEUM

Observations on living material. The hydranths when fully extended are long
and tubular reaching 1,4 mm in length. The base is attached to the ring of refrin-
gent dots in the hydrotheca and narrows suddenly below to the coenosare
which passes through the opening in the diaphragm. There is always a distinct
space between the hydranth base and the diaphragm. The body of the hydranth
is narrowed distally immediately below the tentacles and this contracted ring
is visible even at full extension. The tentacles are held alternately elevated and
depressed and are connected to one another at the base by a web. They are very
mobile and may contract individually or all together. The hypostome is conical,
but very distensible. On contraction the tentacles close over the mouth and the
hydranth body is reduced to about half its length. It cannot be withdrawn into
the hydrotheca.

The nematophore reaches 2 mm in length when fully extended. It consists
of a solid core of endoderm cells and a covering of thin ectoderm and has a
terminal spherical knob well armed with nematocysts. The nematophores are
very mobile and are continually twisting about as though exploring the
surroundings.

As in many other hydroids the stem and hydrorhiza tend to produce abun-
dant stoloniferous processes under laboratory conditions. These are completely
enclosed in perisarc and well supplied with nematocysts. After four days in a
tank they reached 18 mm in length and were profusely branched. Many of them
arose from within dead hydrothecae.

Colour: transparent white.

Distribution outside South Africa. Cape Verde Islands (type locality), Mediter-
ranean, Portugal, West Indies, tropical West Africa, Vema Seamount
(S. Atlantic), Australia, New Zealand, India, Japan.

Distribution in South Africa. False Bay and Transkei coast, littoral to 17 m.
34/18 (1, s), 21/29 (1)

Hydrodendron cornucopia (Millard, 1955)
Fig. 52

Zygophylax cornucopia Millard, 1955: 219, fig. 3.
Hydrodendron cornucopia: Millard, 1973: 30, 33, fig. 6A-F
Diagnosis of typical form. Colony stolonial, epizootic on various species of
Antennella, Monostaechas and Corhiza (most common host: Antennella afri-
cana). Hydrorhiza giving rise directly to solitary hydrophores, each of which
is seated on a short basal internode. Hydrothecae facing alternately to right and
left, forming two rows more or less at right angles to one another and forming
an angle of about 45° with hydrorhiza.

Hydrophore (hydrotheca plus pedicel) with a cornucopia shape and double
curvature (first outwards, then upwards), widening gradually to margin, which
faces upwards (i.e. towards distal end of host), 0,3-0,4 mm in abcauline length

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 161

and 0,10-0,15 mm in marginal diameter. Pedicel more than twice length of
hydrotheca. Diaphragm oblique, with hydropore off-centre and closer to
‘upper’ side, a row of refringent nodules just above it. Hydranth just able to be
contained in hydrotheca, with about 18 tentacles and a constriction between
proximal digestive part and distal non-digestive part, no intertentacular web.
Nematotheca curved-barrel-shaped, one about halfway along ‘upper’ side

of each pedicel.
Gonothecae borne on hydrothecal pedicels close to nematothecae, elon-

Fig. 52.
Hydrodendron cornucopia. A, colony growing on Antennella africana; B, hydrophore with
nematotheca and female gonophore; C and D, two forms of branching hydrophores.
Scale in mm/10.

162 ANNALS OF THE SOUTH AFRICAN MUSEUM

gated, widening to truncated distal end. Male and female on separate hosts,
female larger than male and containing numerous eggs.

Variation. Although the hydrophores are normally solitary, branching indivi-
duals rarely occur. Branching occurs from the lateral surface of the pedicel,
either on one side only or on both sides. Such secondary hydrophores are
similar to the primary one, with basal segment and pedicel; they may branch
again several times.

Distribution. Endemic to South Africa. Type locality: False Bay.

Distribution in South Africa. South and east coasts, from Table Bay in the west
to Natal in the east, littoral to 86 m. 33/18 (s), 34/18 (1, s), 34/22 (s), 33/25 (s),
34/25 (s), 33/27 (s), 32/28 (s), 33/28 (s), 31/29 (s), 30/30 (s), 29/31 (s), 29/32 (s),
28/32 (s)

Hydrodendron gardineri (Jarvis, 1922)
Fig. 53A—D

Halecium gardineri Jarvis, 1922: 334, pl. 24 (fig. 1). Millard & Bouillon, 1974: 23, fig. 4.
Diagnosis. Colony erect or stolonial. Hydrorhiza reticulate; perisarc with
internal projections. Erect stem reaching 4 mm in height, unfascicled,
unbranched, segmented, each internode giving rise to a hydrotheca from an
apophysis arising near the centre or at about two-thirds of the length. The
two rows of hydrothecae in one plane. Stolonial form with solitary hydrothecae
arising directly from the hydrorhiza.

Hydrotheca pedicellate, often regenerated between the apophysis and the
pedicel resulting in additional nodes or corrugations. Pedicel deeper than
hydrotheca, slightly turgid near base, expanding evenly towards distal end to
merge into hydrotheca. Solitary hydrotheca usually with longer pedicel and
several regeneration nodes at base. Hydrotheca deep, widening to margin
which is usually everted, 0,11-0,16 mm in depth (adcauline) and 0,13-0,17 mm
in marginal diameter; diameter at margin approximately equal to adcauline
depth. Diaphragm oblique, sloping downwards to adcauline edge. No refringent
nodules. Hydranth just retractable into hydrotheca; with 18 tentacles and no
intertentacular web.

Nematothecae borne on hydrorhiza, stem internodes or regenerated parts
of thecal pedicels, irregular in occurrence, sessile, goblet-shaped, with everted
margin. Nematophore with a solid core of endoderm cells and a terminal
capitulum.

Gonotheca (not reported from South Africa) borne on hydrorhiza, male
cylindrical, with truncated distal end. Female unknown.

Distribution outside South Africa. Type locality and only record: Salomon,
Chagos, 109-220 m.

Distribution in South Africa. Mocambique: Inhaca to Inhambane, 2-3 m.
25/32, 24/35 (s)

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 163

G

a

Fig. 53.

Hydrodendron gardineri. A and B, parts of erect colony; C and D, solitary hydrophores.
Hydrodendron gracilis. E, stem; F and G, hydrophores with nematothecae; H, female
gonophore with planulae; J, female gonophore with eggs.
Scale in mm/10.

164 ANNALS OF THE SOUTH AFRICAN MUSEUM

Hydrodendron gracilis (Fraser, 1914)

Fig. 53E-J
Ophiodes gracilis Fraser, 1914: 171, pl. 22 (fig. 82).
Diplocyathus gracilis: Leloup, 1935: 11, fig. 2. Leloup, 1937: 17, fig. 9.
Zygophylax enigmatica Millard, 1964: 19, fig. 5A—-F.
Hydrodendron gracilis: Millard, 1973: 33, fig. 6F—E.
Diagnosis. Colony minute, epizootic on Nemertesia ramosa, with erect stems
reaching a height of 2-3 mm. Stem unfascicled, unbranched, segmented, each
internode giving rise to a hydrotheca from an apophysis near the distal end. The
two rows of hydrothecae in one plane. Each apophysis with a mamelon on
upper surface.

Hydrotheca pedicellate, usually with one or more regeneration nodes
between the stem apophysis and the pedicel. Pedicel 1,2-2,4 times length of
hydrotheca, expanding distally, with adcauline wall slightly convex near base.
Hydrotheca widening slightly to margin, 0,07-0,10 mm in height and 0,10—
0,11 mm in marginal diameter. Margin not everted. Diaphragm oblique, with
hydropore off-centre and closer to adcauline side. No refringent nodules.

Nematotheca curved, one about halfway along adcauline side of each
pedicel, and usually one on the distal end of each stem internode or on its
apophysis.

Gonothecae borne on the hydrocladial apophyses; female flattened, flask-
shaped in lateral view with slender neck and terminal aperture, containing about
nine eggs which develop into planulae in situ; male unknown.

Variation. The stem internodes vary in length, particularly near the base of the
stem where they tend to be much shorter. Weakly developed internodal septa
occasionally occur, both in the stem internodes and in the hydrothecal pedicels.

Remarks. This species shows some resemblances to the epizootic form of
Plumularia setacea. It can be distinguished from it by the fact that the hydrotheca
terminates the pedicel and is not seated on its anterior face and by the absence
of supracalycine nematothecae.

Distribution outside South Africa. West coast of North America (type locality),
West Indies, French Indo-China.

Distribution in South Africa. Reported once only, off the west coast of the Cape
Peninsula. 34/18 (s)

Hydrodendron sympodiformis Millard & Bouillon, 1974
Fig. 54
Hydrodendron sympodiformis Millard & Bouillon, 1974: 25, fig. 5.

Diagnosis. Colony erect or stolonial, growing on weed. Hydrorhiza reticulate;
perisarc with or without internal projections. Erect stem reaching a maximum
height of 7 mm, unfascicled, consisting of a series of hydrophores arising one

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 165

from another by sympodial branching, each hydrophore with a terminal
hydrotheca and a lateral apophysis which bears the next hydrophore, éach
hydrophore other than the first curved upwards to stand almost parallel to the
preceding one; hydrothecae not in one plane. Stolonial form with solitary
hydrophores arising directly from hydrorhiza.

Hydrothecal pedicel of variable length, often with regeneration nodes or
corrugations immediately above origin of apophysis in erect stem or at base
in solitary hydrophore. Hydrotheca with flaring wall, with margin sometimes

KC B,D,E

Fig. 54.

Hydrodendron sympodiformis. A, stem; B, part of stem; C, gonotheca; D, solitary hydrophore
and nematothecae; E, gonotheca.
Scale in mm/10.

166 ANNALS OF THE SOUTH AFRICAN MUSEUM

everted, 0,06-0,10 mm in depth and 0,17-0,2 mm in marginal diameter. Dia-
phragm straight. A ring of refringent nodules about midway between margin
and diaphragm. Hydranth with about 22 tentacles.

Nematothecae borne on hydrorhiza and hydrophore pedicels, random in
occurrence, sessile, goblet-shaped, with everted margin and perisarcal thickening
below it. Nematophore with terminal capitulum containing large nematocysts.

Gonotheca (only female known) borne on hydrorhiza, barrel-shaped with
widest part below centre, with 6—7 deep transverse annulations, reaching 0,8
mm in depth and 0,4 mm in maximum diameter.

Distribution. Endemic to South Africa.

Distribution in South Africa. Type locality and only record: Inhaca, Mocam-
bique. 26/32

Family Lafoeidae

Diagnosis. Thecate hydroids with campanulate to tubular, and often bilaterally
symmetrical, hydrothecae, into which the hydranth can be completely with-
drawn. Hydrotheca stalked or adherent, without operculum, with untoothed
margin, with or without diaphragm. Hydranth with conical hypostome, one
circle of filiform tentacles and undifferentiated endoderm. Nematophores
present or absent. Gonophores enclosed in gonothecae, which are often aggre-
gated into a coppinia; in the form of fixed sporosacs or, rarely, producing free
medusae.

Introduction. The most primitive genera of the Lafoeidae are probably those
with stolonial colonies, as in Hebella and Scandia. Filellum also has stolonial
colonies, but the hydrothecae are adherent to the hydrorhiza for their proximal
part, then bend away from it. In all other species the mature colony consists
of an erect stem bearing hydrothecae, yet in most of them, and especially in the
genera Lafoea, Acryptolaria and Cryptolaria, a juvenile or epizootic form is
known which retains the stolonial arrangement. To separate the stolonial genera
into a separate family (the ‘Hebellidae’) which has been done by some systema-
tists, is therefore inadvisable.

The erect stem varies in complexity. It may be fascicled and the hydro-
thecae partly immersed. It may branch and rebranch, and there is little difference
between the orders of branches, since all bear hydrothecae, but for the sake of
uniformity the final branches are here termed hydrocladia.

In most genera the hydrotheca is supported by a slender pedicel, but
typically the two are not clearly demarcated externally. A diaphragm or an
annular thickening of perisarc may or may not separate them internally. In
the branching genera Acryptolaria and Cryptolaria the pedicel and hydrotheca
are partly adherent to the stem, but in young stolonial colonies the hydrothecae
are quite free. In this character these genera resemble Filellum.

Regeneration is common and may result in apparent segments in the stem

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 167

pedicel]

annular thickening

diaphragm

pedi
Pedice! nematotheca
STOLONIAL &
PEDICELLATE ERECT &
PEDICELLATE
STOLONIAL & ADHERENT ERECT & ADHERENT

Fig. 55.
Lafoeidae: types of hydrothecae.

or hydrocladia, or, more commonly, may produce new hydrothecae within
the old ones, giving the appearance of a margin which is reduplicated, often
many times (Fig. 56A). The measurements of hydrothecae which are given
are always without such supplementary margins.

Nematophores and nematothecae are present in the genera Cryptolaria
and Zygophylax. The nematothecae are usually minute tubular structures and
do not attain the complexity characteristic of many Plumulariidae.

The reproductive structure, the COPPINIA, 1s characteristic of the Lafoeidae,
and consists of a nest of closely packed gonothecae surrounding part of the stem
(Fig. 56F). It is usually protected by special defensive structures formed from
modified hydrothecae or nematothecae which project beyond the surface giving
to the whole a bristly appearance. Yet the more primitive “Hebellidae’ and
Cryptolarella have separate gonothecae. Hebella is the only genus known to
produce medusae, but the adult medusa is imperfectly known and in no species
has been reared to maturity.

Reproductive bodies are strangely scarce in the Lafoeidae and in some
species have never been recorded in this country. Since the final identification
often depends on these structures the specific name remains doubtful in such
cases and awaits confirmation at a later stage.

KEY TO GENERA

1. Hydrotheca stalked, not adherent .. i a th is Aes me 2
— Hydrotheca adherent ee ae 2 he Bes eit a2 ay 5

168 ANNALS OF THE SOUTH AFRICAN MUSEUM

2. Mature colony with erect, branching stem bearing hydrothecae irregularly
on all sides. Hydrotheca without diaphragm or annular thickening, not sharply
demarcated from pedicel. No nematothecae. Gonothecae aggregated into
coppinia sé Lafoea

— Colony erect or stolonial; erect stem bearing hydrothecae i in two longitudinal
rows. Hydrotheca usually with diaphragm or annular thickening (always in
South African species) ae By ak

3. Mature colony erect. Hydrotheca not sharply demarcated from pedicel, with
diaphragm. Nematothecae usually present (always in South African species).

Gonothecae usually aggregated into coppinia.. Zygophylax p.

— Colony stolonial. Hydrotheca distinctly demarcated from pedicel, usually with
annular thickening round base (always in South African species). No nemato-
thecae. Gonothecae single, never aggregated

4. Gonophores producing free medusae. Hydrotheca small, never over 1,2 mm in

height, usually much less... ote Hebella p.
— Gonophores in the form of fixed sporosacs. ‘Hydrothecae larger, 1 1—2,1 mm in
height .. ee ee 45 oe af be: a a oy Scandia p.

5. Colony stolonial. Hydrotheca adherent to hydrorhiza .. ae .. Filellum p.

Mature colony with erect, branching stem. Hydrotheca adherent to stem or
branch

6. Diaphragm present between hydrotheca and stem dees Nematothecae

present a wie D:

— Normally no diaphragm. No nematothecae

Ih Hydrothecae alternate, forming two longitudinal rows. Gonothecae aggregated

into coppinia : Acryptolaria p.

— Hydrothecae on all surfaces of stem, though they may ‘be alternate in some

regions. Gonothecae solitary, not aggregated = a es Cryptolarella p.

Genus Acryptolaria Norman, 1875

Syn. Scapus Norman, 1875.
Oswaldaria Stechow, 1923.

. 184

188

Diagnosis. Colony normally erect, stolonial in young stages. Erect stem fas-
cicled and branched; branches alternate or subalternate; stem and branches
bearing hydrocladia which are similar to the branches. Hydrothecae arising
from stem, branches and hydrocladia alternately in two rows and from the
axial tube when fascicled. Hydrotheca tubular, at least partly adnate, not
demarcated from apophysis and normally without a diaphragm. No nemato-
thecae, but reduced hydrothecae sometimes borne on accessory tubes (but not
in South African species). Gonothecae aggregated to form a coppinia.

Gonophores in the form of fixed sporosacs.

Type species: Acryptolaria andersoni Totton, 1930.

KEY TO SPECIES

1. Hydrotheca bent sharply outwards at almost a right angle. Abcauline wall with

distinct notch at level of bend : .. A. rectangularis
Hydrotheca curved smoothly outwards. No notch on abcauline wall . A. conferta

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 169

Acryptolaria conferta (Allman, 1877)
Fig. 56

Cryptolaria conferta Allman, 1877: 17; pl. 12 (figs 6-10).
Cryptolaria conferta var. australis Ritchie, 1911: 826, pl. 84 (fig. 2), pl. 87 (fig. 1).
Acryptolaria conferta: Millard, 1968: 260. Millard, 1973: 28, fig. 4C.
Acryptolaria conferta conferta: Millard, 1964: 7, fig. 1A—C, E.
Acryptolaria conferta australis: Millard, 1964: 9, fig. 1D, F—G. Vervoort, 19665: 115, fig. 15.
Diagnosis. Colony reaching a height of 110 mm. Stem of variable robustness,
fascicled, unsegmented, giving rise to alternate hydrothecae and irregularly
alternate branches or hydrocladia from the axial tube. Larger branches fas-
cicled, generally lying in one plane, each arising on a level with the free part of
a hydrotheca, giving rise to hydrothecae and hydrocladia in a similar manner.
Hydrocladia unfascicled or lightly fascicled, unsegmented, typically one to
every third hydrotheca. The two rows of hydrothecae in one plane.

Hydrotheca tubular, curved smoothly outwards, adnate for 4 to ? height
and rarely more, 0,5-1,3 mm in total adcauline length (adnate plus free part)
and 0,13—0,3 mm in marginal diameter (which is 14-24 times the diameter at
base). Margin very slightly everted.

Gonothecae aggregated into a coppinia, in contact with one another
though rather loosely packed, flask-shaped with slender distal neck and small
terminal orifice, producing acrocysts. Coppinia not provided with modified
hydrothecae or nematothecae.

Variation. Much variation in the growth-form occurs and colonies may vary
from small and flexuous to large and stiff. Irregularities in the branching may
produce shrubby growths often complicated by stolons which anastomose
with other regions.

The first hydrotheca on a hydrocladium is sometimes seated on the front
and thus in a plane at right angles to that of the stem, but after this the hydro-
cladium rotates until the original plane is restored.

Hydrothecae vary in size, though they never exceed a marginal diameter of
0,3 mm. Their spacing on the stem varies, and the base of the adcauline wall
may be well above the axil of the previous hydrotheca, level with it, or below it,
the last condition resulting in densely packed overlapping hydrothecae (Ritchie’s
var. australis). All grades between the two extremes occur. The abcauline wall
of the hydrotheca may be concave and evenly curved throughout, or may bulge
slightly near the base, when there may be a slight indentation below the hydro-
theca, giving the effect of a poorly developed node. Rejuvenations of the margin
are common.

Solitary hydrothecae may arise separately from the hydrorhiza in young
or epizootic colonies. These are erect, not adnate, and symmetrical or irregular
in shape.

Distribution. Cosmopolitan. Type locality: off Cuba.

Distribution in South Africa. Sparsely distributed from the west coast round the

170 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 56.

Acryptolaria conferta. A, part of stem of ‘var. conferta’; B, part of stem to show branching,
portions of peripheral tubes in position; C, solitary hydrothecae; D, young stem arising
next to a solitary hydrotheca; E, stem, heavy form; F, t.s. coppinia with female
gonothecae.

Scale: E in cm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 74)

Agulhas Bank into Natal and Mogambique, in 64 to 350 m. 30/15 (d), 35/19
(d), 35/22 (d), 34/23 (d), 34/24 (d), 33/27 (s), 30/31 (d), 29/31 (s, d), 24/35 (d)

Acryptolaria rectangularis (Jarvis, 1922)
Fig. 57A-D

Cryptolaria rectangularis Jarvis, 1922: 335, pl. 24 (fig. 3).
Acryptolaria angulata: Vervoort, 19666: 116, fig. 16.
Acryptolaria rectangularis: Millard, 1967: 174, fig. 2B. Millard, 1968: 261, fig. 2.
Diagnosis. Colony reaching a height of 70 mm. Stem flexuous (not able to sup-
port itself out of fluid), fascicled, unsegmented, giving rise to alternate hydro-
thecae and irregularly alternate or subalternate branches or hydrocladia from
the axial tube. Branches fascicled, given off more or less in one plane, each one
arising on a level with the top of a hydrotheca, giving rise to hydrothecae and
hydrocladia in a similar manner, commonly anastomosing with other parts of
the colony. Hydrocladia fascicled or unfascicled, unsegmented. The two rows
of hydrothecae in one plane.

Hydrotheca tubular, adnate for 3-2 length, then bent sharply outwards
forming almost a right angle with stem; free adcauline wall straight or slightly
concave; abcauline wall with distinct notch at point of divergence; 0,5—-1,3 mm
in total adcauline length (adnate plus free part) and 0,10—0,2 mm in marginal
diameter. The base of one hydrotheca commencing immediately above axil of
the one below. Margin slightly everted, directed outwards and upwards at an
angle to stem.

Gonothecae aggregated into a coppinia, firmly adpressed for complete
length, tubular, widening slightly to distal, wide, terminal aperture. Coppinia
provided with modified tubular hydrothecae which project above surface.

Variation. The branching in this species does not show the regularity common
to most of the family. Only rarely does any regularity occur, with two alternate
branches arising close together, and then it is usually after every fifth and sixth
hydrotheca. Also there are no axillary hydrothecae, a branch leaving the stem
immediately above, or next to, the axil of a hydrotheca.

The hydrotheca sometimes has an internal ring of tubercles for the attach-
ment of the base of the hydranth, which may be coalesced to form a diaphragm
in older parts of the colony. This character relates the species to the genus
Cryptolaria.

Solitary hydrothecae may arise separately from the hydrorhiza in young or
epizootic colonies; these are erect and without the right-angle bend, symmetrical
or irregular in shape.

Distribution outside South Africa. Providence, tropical Indian Ocean (type
locality) and south west Indian Ocean.

Distribution in South Africa. Off the coasts of Natal and Mocambique in 110
to 495 m. 30/31 (d), 29/31 (d), 26/33 (d), 24/35 (d).

172 ANNALS OF THE SOUTH AFRICAN MUSEUM

Genus Cryptolarella Stechow, 1913

Diagnosis. Colony normally erect, stolonial in young stages. Erect stem fas-
cicled and branching. Hydrothecae arising from axial tube of stem irregularly
and on all surfaces. Hydrotheca tubular, partly adnate, without diaphragm.
No nematothecae. Gonothecae not aggregated, solitary or in pairs, contents
not known.

Type species: Cryptolaria abyssicola Allman, 1888.
One species only from South Africa.

Cryptolarella abyssicola (Allman, 1888)
Fig. 57E-G

Cryptolaria abyssicola Allman, 1888: 40, pl. 18 (figs 2—2a).
Cryptolarella abyssicola: Kramp, 1951: 121, pl. 1 (figs 1-3). Vervoort, 19665: 118, figs 18-20.
Diagnosis. Colony reaching a height of 60 mm. Stem flexuous (not able to
support itself out of fluid), fascicled, unsegmented, giving rise to hydrothecae
on all surfaces from an axial tube and to roughly alternate branches from the
peripheral tubes. Larger branches fascicled and similar to stem, often rebranch-
ing and reuniting by stolonic processess smaller branches unfascicled. Branch-
ing in one plane. Hydrothecae often partly buried by peripheral tubes, the base
of the adcauline wall usually below the axil of the preceding hydrotheca.

Hydrotheca tubular, adnate to stem for about half height, then curved
smoothly outwards, 0,6-2,3 mm in total adcauline height (adnate plus free
part) and 0,13-—0,2 mm in marginal diameter.

Gonothecae (not reported from South Africa) borne singly on stem,
flask-shaped, partly adnate, with a short curved neck.

Variation and remarks. This species has been found from two localities only,
and the specimens differ from one another rather markedly in hydrothecal size
and proportions but cannot be separated on any constant factor.

The colony with the large hydrothecae (1,8-2,3 mm in total adcauline
height and 0,16-0,2 mm in marginal diameter) comes from a greater depth
(2 740 m).

The colony with the small hydrothecae (0,6-0,7 mm in total adcauline
height and 0,13-0,16 mm in marginal diameter) comes from a lesser depth
(200 m). The hydrothecae are more closely set on the stem and the proportion
of marginal diameter to total adcauline length is greater (0,18-0,27 as against
0,07—-0,09). However, since the material described by Vervoort and Kramp
does, to a large extent, bridge the gap between the two samples, it is not justi-
fiable to create a new species for the form with small hydrothecae.

In both colonies the shape of the hydrotheca is variable and the free part
often abnormally elongated, possibly due to regeneration although no
regeneration lines are visible.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 173

Big.-57-

Acryptolaria rectangularis. A, part of branch; B, stem; C, t.s. part of coppinia with gonothecae
and modified hydrothecae; D, solitary hydrothecae.

Cryptolarella abyssicola. E, stem; F and G, parts of branches with small and large hydrothecae
respectively.

Scale: B and E in cm, the rest in mm/10

174 ANNALS OF THE SOUTH AFRICAN MUSEUM

Distribution outside South Africa. North Atlantic, East Indies, South Pacific.
Type locality: south of Australia, 42°42 'S/134°10’E, 4 740 m.

Distribution in South Africa. Off Saldanha Bay in 2 740 m and off Still Bay in
200 m. 33/16 (a), 35/22 @)

Genus Cryptolaria Busk, 1857
Syn. Perisiphonia Allman, 1888.

Diagnosis. Colony normally erect, stolonial in young stages. Erect stem fas-
cicled and branched; branches subalternate; stem and branches bearing hydro-
cladia which are similar to branches. Hydrothecae arising from stem, branches
and hydrocladia alternately in two or four longitudinal rows and from the
axial tube when fascicled. Hydrotheca tubular, at least partly adherent in at
least some part of colony, separated from apophysis by distinct diaphragm.
Nematothecae present. Gonothecae aggregated to form a coppinia. Gono-
phores in the form of fixed sporosacs.

Type species: Cryptolaria prima Busk, 1857 (syn. Perisiphonia quadriseriata
Trebilcock, 1928).

One species only from South Africa.

Cryptolaria pectinata (Allman, 1888)
Fig. 58A—F

Perisiphonia pectinata Allman, 1888: 45, pl. 21 (fig. 2). Ritchie, 1911: 835, pl. 87 (fig. 2).
Acryptolaria pectinata: Stechow, 1925a: 448, figs 20-21.

Cryptolaria pectinata: Ralph, 1958: 320, figs 5g—j, 6g-j, 7c.

Diagnosis. Colony reaching a height of 40 mm. Stem stiff, heavily fascicled,
branching in one plane, unsegmented, giving rise to alternate hydrothecae
and subalternate branches or hydrocladia from the axial tube. Branches fas-
cicled, similar to stem. Hydrocladia fascicled except at extremities, unsegmented,
arising below every third and fourth hydrotheca. The two rows of hydrothecae
in one plane.

Hydrotheca tubular; adnate for a variable proportion of length, usually over
half, but axillary hydrothecae often completely free from axial tube, those of
stem partly immersed in peripheral tubes; bent strongly outwards at beginning
of free part; with margin parallel to axial tube or tilted downwards; 0,3-0,4
mm in total adcauline length (adnate plus free part) and 0,06-0,10 mm in
marginal diameter. Diaphragm oblique, with abcauline edge higher than
adcauline.

Nematotnecae tubular, scattered irregularly on peripheral and axial tubes,
and usually one on each hydrothecal apophysis.

Gonothecae aggregated into a coppinia, flask-shaped, firmly adpressed
for about two-thirds of length and with slender, free neck provided with one or

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 175

two lateral openings and one or two curved, distal horns. Coppinia provided
with branched nematothecae which project above the surface.

Variation. Colonies of 130 mm have been reported from outside South Africa.
The arrangement of the hydrocladia is very regular and few deviations occur.
Although there is no segmentation, the hydrothecae, at any rate on young stems,
are usually distinctly grouped, there being a larger gap after every fourth one,
i.e. after every subalternate pair of hydrocladia.

The abcauline wall of the hydrotheca is thickened at the point of curvature
in older parts of the colony. Rejuvenations of the margin are common.

Solitary hydrothecae may arise separately from the hydrorhiza in young
or epizootic colonies; these are erect, not adnate, with a slender pedicel and
curved hydrotheca.

Remarks. The coppiniae in this species are dioecious. Stechow states that the
one-horned gonothecae are male and the two-horned ones female (containing
planulae). Yet Ralph has found eggs in one-horned gonothecae in New Zea-
land material (which I can confirm after examination). Only two-horned gono-
thecae have been found in South Africa and these contain bodies which resemble
planulae. The question of the sex thus needs confirmation.

Distribution outside South Africa. New Zealand (type locality), North Atlantic,
West Indies, ?Galapagos Islands.

Distribution in South Africa. East London to Natal in 49-90 m. 33/27 (s),
29/31 (s)

Genus Filellum Hincks, 1868
Syn. Reticularia Wyville Thompson, 1853

Diagnosis. Colony stolonial, with hydrothecae arising directly from a creeping
hydrorhiza. Hydrotheca tubular, adnate to hydrorhiza for part of its length,
then free, without diaphragm. Gonothecae aggregated to form a coppinia,
which also contains modified protective hydrothecae. Gonophores in the form
of fixed sporosacs. Generally no nematothecae.

Type species: Campanularia serpens Hassall, 1848

Remarks. The genus Filellum is common in South Africa, yet of the three
reported species only F. serratum is identifiable in the absence of coppiniae,
and coppiniae rarely occur.

KEY TO SPECIES
1. Adnate part of hydrotheca transversely ridged on outer surface. Coppinia with straight

accessory tubes ae, as ae fe vA Bee a a F. serratum
Adnate part of hydrotheca smooth. . oe ae bg e: ae ae we 2
2. Coppinia with forked accessory cubes a 4) te ni oe F. antarcticum

Coppinia with simple, curved accessory tubes .. Pe, - ee .. FF. serpens

176 ANNALS OF THE SOUTH AFRICAN MUSEUM

aoe
is Me

oe

G

H

Fig. 58.

Cryptolaria pectinata. A, part of stem from distal region to show axillary hydrothecae and
origin of hydrocladia (the axial tube has thicker perisarc than the peripheral tubes);
B, t.s. part of coppinia showing female gonothecae and nematothecae; C, part of hydro-
cladium (only the axial tube shown); D, a young stem (the single peripheral tube not
shown); E, solitary hydrothecae; F, stem with coppinia.
Filellum antarcticum. G, hydrothecae; H, forked accessory tubes from coppinia.
Scale: F in cm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 177

Filellum antarcticum (Hartlaub, 1904)
Fig. 583G-H

Lafoéa antarctica Hartlaub, 1904: 11, pl. 2 (fig. 2). Vanhoffen, 1910: 311, fig. 3la-c.
Filellum antarcticum: Stechow, 1925b: 214. Millard, 1964: 10 (pp). non Millard, 1958: 175.
Reticularia antarctica: Totton, 1930: 160, fig. 17.
Diagnosis. Colony epizootic on other hydroids. Hydrotheca distinctly demar-
cated from hydrorhiza, adnate for +-} length, then free and bent outwards,
smooth, margin slightly everted, 0,10—0,12 mm in diameter.

Gonothecae aggregated into a coppinia, firmiy adpressed, cylindrical,
with terminal apertures, discharging their contents into acrocysts. Coppinia
provided with numerous forked accessory tubes (modified hydrothecae) which
arch over and protect the gonothecae.

Variation and remarks. A few of the hydrothecae show very faint transverse
striations on the outer surface of the adnate part. Reduplications of the margin
are common. Occasionally a few of the hydrothecae are not adnate at all, but
free for the entire length.

One example of a mutilated coppinia has been found, establishing for
certain the presence of the species in the country. Only this sample was used
for measurements. Infertile material of this species or F. serpens occurs quite
commonly.

Distribution outside South Africa. Antarctic (type locality), Australia, Chile.

Distribution in South Africa. The only certain record is from Mossel Bay on
the south coast in 13 m. Doubtful records from the Agulhas Bank and Natal.
34/22 (s)

Filellum ?serpens (Hassall, 1848)

Companularia serpens Hassall, 1848: 2223.

Filellum serpens: Hincks, 1868: 214, pl. 41 (fig. 4).

Coppinia arcta: Hincks, 1868: 219, pl. 41 (fig. 5).

Grammaria serpens: Vervoort, 1946a: 194, fig. 82.

Diagnosis. Colony generally epizootic on other hydroids. Hydrotheca tubular,
distinctly demarcated from hydrorhiza, adnate for 4-2 length, then free and
bent outwards, smooth, margin not or only slightly everted, about 0,1 mm in
diameter.

Gonothecae (not reported from South Africa) aggregated into a coppinia,
firmly adpressed, cylindrical, with terminal apertures. Coppinia provided with
numerous simple accessory tubes (modified hydrothecae) which curve over the
gonothecae. Coppinia hermaphroditic, containing male and female gonothecae.
{From Hincks and Vervoort.)

Distribution. Cosmopolitan. Type locality: U.K.

Distribution in South Africa. Uncertain. All previous records from the country
have been infertile, so there is a possibility of confusion with F. antarcticum.

178 ANNALS OF THE SOUTH AFRICAN MUSEUM

Filellum serratum (Clarke, 1879)
Fig. 59A—C

Lafoéa serrata Clarke, 1879: 242, pl. 4 (fig. 25). Hartlaub, 1905: 595, fig. Q?. Ritchie, 1911:
818.

Reticularia serrata: Ralph, 1958: 312, figs. 2), 3a.

Filellum 2antarcticum: Millard, 1958: 175. Millard, 1964: 10 (pp).

Filellum serratum: Millard, 1967: 175, fig. 2D. Vervoort, 1972: 51, fig. 14a—b.

Diagnosis. Colony generally epizootic on other hydroids. Hydrotheca tubular,
distinctly demarcated from hydrorhiza, adnate for 4—? length, then free and
bent outwards, adnate part transversely ridged on outer surface, margin slightly
everted, 0,10-0,3 mm in diameter.

Gonothecae aggregated into a coppinia, fatally adpressed, cylindrical,
with terminal apertures, releasing planula larvae. Accessory tubes present, at
least double the length of the gonothecae, unbranched, of very irregular shape
and usually curved or twisted.

Variation and remarks. Regenerations of the thecal margin are common. The
size of the hydrotheca and the proportion of its wall adnate are notoriously
variable. The striations also vary in number and distinctness (4-45 observed in
South Africa). Hartlaub reports nematothecae arising from the hydrorhiza in
material from South America. Occasionally a few of the hydrothecae rise erect
from the substratum with no adnate part.

The only previous description of the coppinia of this species is that of
Ritchie (1911), which unfortunately was not illustrated. Ritchie states that the
accessory tubes either “stand out stiffly from the surface... or‘... do not
project, but instead lie closely apposed to each other, parallel to the surface of
the coppinia’. The variability of the tubes can be confirmed.

The planulae appear to become trapped by the basket-work of the accessory
tubes and pour out when the coppinia is cut.

Distribution. Cosmopolitan. Type locality: Cuba.

Distribution in South Africa. Scattered, from the south-west Cape round the
Agulhas Bank to Natal and Mocambique, 24-347 m. 34/18 (d), 35/19 (d),
35/22 (d), 33/25 (s), 30/30 (s), 24/35 (d)

Genus Hebella Allman, 1888
Syn. Hebellopsis Hadzi, 1913.

Diagnosis. Colony stolonial, with stalked hydrothecae arising from a creeping
hydrorhiza. Hydrotheca cylindrical or deeply campanulate, distinctly demar-
cated from pedicel, usually with annular perisarcal thickening around base
(always in South African species), with or without a true diaphragm. Gono-
thecae arising singly from the hydrorhiza, producing free medusae. No
nematophores.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 179

i tity

Fig. 59.

Filellum serratum. A and B, hydrothecae illustrating extremes in size; C, t.s. part of coppinia,
showing gonothecae and accessory tubes, from the same colony as the small hydrothecae.
Hebella parvula. D, hydrothecae, redrawn from Stechow (1925a, as Hebellopsis parvula).
Hebella dispolians. E, colony infesting Amphisbetia maplestonei, redrawn from Warren (1909
as Lafoea dispolians).
Abbreviations: ep and pa: epizootic and parasitic parts of Hebella; ho: parts of host.
Scale in mm/10

180 ANNALS OF THE SOUTH AFRICAN MUSEUM
Medusae imperfectly known, with at least two marginal tentacles and no
cirri.

Type species: Hebella striata Allman, 1888.

KEY TO SPECIES

1. Hydrotheca very small (under 0,4 mm in height)
— Hydrotheca larger (over 0,5 mm in height)

WN

2. Colony with epizootic and parasitic forms, the latter invading the perisarc of the host
and making use of its hydrothecae in place of its own. Epizootic form with cylindrical
hydrothecae of about 0,4 mm in height .. : : H. dispolians
— Colony with epizootic form only. Hydrotheca minute ‘(under 0,2 mm in height),
cylindrical BL = oe oe ee A a oh H. parvula

3. Colony with epizootic and parasitic forms, the latter invading the perisarc of the host
but producing its own hydrothecae. Hydrotheca expanding to margin, margin strongly
everted be so SA Shura
- Colony with epizootic form only. Hydrotheca eylindricall not expanding to margin,
margin not, or only very slightly, everted .. ae gi had ae H. scandens

Hebella dispolians (Warren, 1909)

Fig. 59E
Lafoea dispolians Warren, 1909: 105-112, figs 1-2, pl. 1.

Diagnosis. Colony epizootic and parasitic on Amphisbetia maplestonei, with the
hydrorhiza penetrating into the perisarc of the host or creeping over the surface.

Hydrotheca of epizootic form cylindrical, symmetrical or somewhat
irregular; margin not everted and perpendicular to axis; 0,4 mm in length and
0,18 mm in marginal diameter. Annular thecal thickening present. Pedicel
short, not annulated.

Hydrorhiza of parasitic form giving rise to hydranths which either utilize
the hydrothecae of the host or supplement them with short, terminal, perisarcal
collars.

Hydranth with eight tentacles.

Gonophores unknown.

Remarks. The parasitic form of this unique species gains entry through the
hydrothecae of the host, apparently killing the hydranths and replacing them
with its own. The hydrorhiza may penetrate into the coenosarc of the host; it is
normally without a perisarcal covering of its own, though the host tends to
secrete perisarcal partitions or tubes to isolate it. The growing tips are in direct
contact with the coenosarc of the host and can presumably obtain nourishment
from it.

Distribution. Endemic to South Africa. Type locality: Isipingo, Natal.

Distribution in South Africa. Not reported since Warren’s original description.
30/30

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 181

Hebella furax Millard, 1957
Fig. 60A-C
Hebella furax Millard, 1957: 200, fig. 8. Millard, 1964: 10, fig. 2B—D.

Diagnosis. Colony epizootic on plumulariid hydroids of the subfamily Aglao-
pheniinae, particularly Lytocarpus filamentosus, with the hydrorhiza sometimes
penetrating into the perisarc of the host as a parasitic form.

Hydrotheca of epizootic form deep-campanulate and usually asymmetrical,
smooth, with everted and slightly oblique margin, 0,6-1,2 mm in height and
0,4-0,6 mm in marginal diameter. Annular thecal thickening pronounced,
usually better developed on one side than the other. Reduplications of margin
common. Pedicel with 3-6 spiral annulations, 0,13-0,7 mm in length.

Hydrotheca of parasitic form emerging from hydrotheca or broken end of
hydrocladium of host, similar to epizootic form though generally smaller,
0,6-0,9 mm in height and 0,3-0,5 mm in marginal diameter. Pedicel usually
shorter than epizootic form, 0,03-0,17 mm in length, smooth or with one or
two spiral annulations.

Hydranth with about 17 tentacles.

Female gonotheca usually curved, trumpet-shaped, widening gradually
from a slender corrugated pedicel to a wide and everted margin, with smooth
or slightly corrugated walls, with cap-shaped operculum, 1,6—2,5 mm in total
height and 0,5—0,8 mm in marginal diameter. Containing several medusa-buds
one above the other. Medusa with at least three long marginal tentacles and a
four-lipped mouth.

Remarks. The species was named for the parasitic form, which was discovered
first (furax = thievish), though later it was found to be less common than the
epizootic form. The parasitic hydrorhiza apparently gains entry to the host
through the mamelon or through a damaged part of the perisarc. It has no peri-
sarcal covering of its own, making use instead of that of its host. The parasitic
pedicels acquire their own perisarcal covering on emergence, but they appear
to make use partly of the hydrothecae of the host, for they are usually shorter
than in the epizootic form. The infected parts of the host are always dead. No
gonophores have been observed to arise from parasitic hydrorhizae.

The parasitism in this species is not so extreme as in H. dispolians, for the
hydrorhiza does not invade the coenosarc of the host but runs alongside it.
Further the hydranths do not utilize the hydrothecae of the host to the same
extent. See also remarks on Scandia mutabilis.

Distribution outside South Africa. Seychelles.

Distribution in South Africa. South coast, from False Bay to East London, in
depths of 4 to 49 m. Off Natal and Mocambique, 2-42 m. Type locality:
False Bay. 34/18 (s), 34/21 (s), 34/22 (s), 33/25 (s), 33/27 (s), 32/28 (s), 30/30 (s),
26/32, 25/32, 25/33 (6); 24/35 (Ss)

182 ANNALS OF THE SOUTH AFRICAN MUSEUM

Hebella paryula (Hincks, 1853)
Fig. 59D

Lafoéa parvula: Hincks, 1868: 203, pl. 40 (fig. 1).
Hebellopsis parvula: Stechow, 1925a: 441, fig. 16.
Diagnosis. Hydrotheca minute, cylindrical, of equal diameter throughout, less
than twice as deep as wide, smooth, symmetrical, margin not everted and per-
pendicular to axis, 0,16—-0,19 mm in height and 0,08 mm in marginal diameter.
Reduplications present. Annular thecal thickening present. Pedicel annulated,
with about four rings, 0,07 mm in length.
Gonophores unknown.

Distribution outside South Africa. Ireland (type locality), White Sea.

Distribution in South Africa. Reported once only by Stechow from the Agulhas
Bank in 100 m. 35/20 (d)

Hebella scandens (Bale, 1888)
Fig. 60F—G

Lafoea scandens Bale, 1888: 758, pl. 13 (figs 16-19). Warren, 1908: 341, fig. 21.
Hebella scandens: Millard, 1957: 202. Vervoort, 1967: 31, figs. 5-6.
Hebella calcarata: Ralph, 1958: 306, fig. la-s. Hirohito, 1969: 14, fig. 11.
Hebella urceolata Millard, 1964: 12, fig. 2A.
Diagnosis. Colony epizootic on other hydroids. Hydrotheca cylindrical, of
equal diameter or narrowing at or below margin, 24-34 times as deep as wide,
smooth or lightly corrugated, usually asymmetrical and bent slightly to one side,
margin not or only slightly everted and usually oblique, 0,5-1,0 mm in height
and 0,19-0,3 mm in marginal diameter. Annular thecal thickening present
and to it attached a thin diaphragm. Reduplications of margin common.
Pedicel smooth or corrugated, 0,12-0,3 mm in length. Hydranth with about 13
tentacles.

Gonotheca widening gradually from a slender pedicel to a wide margin
which is not everted, irregularly corrugated, with an operculum of four valves
inserted in four bays in the margin, 1,1-1,4 mm in total height and 0,4-0,5 mm
in marginal diameter. Containing up to four medusa-buds, one above the other.
Medusa at liberation with a simple mouth, two long, opposite marginal ten-
tacles, and rudiments of two other perradial tentacles and four interradial
tentacles. Adult medusa unknown.

Remarks. This is a very common species, epizootic on many species of Sertu-
lariidae, particularly Sertularella arbuscula, and also less commonly on Hale-
ciidae, Syntheciidae and Plumulariidae. It grows profusely and often completely
obscures the host.

One example has been seen in which the hydrorhiza penetrates the perisarc
of the host, where it loses its own perisarcal covering and runs side by side with
the coenosarc of the host, but this is apparently a rare condition.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 183

UO

iaG

eos F
Fig. 60.

Hebella furax. A, hydrotheca of epizootic form; B, hydrotheca of parasitic form infesting
Lytocarpus filamentosus; C, gonotheca with medusa-buds.

Scandia mutabilis. D and E, hydrothecae.

Hebella scandens. F, hydrothecae; G, gonotheca with medusa-buds.

Scale in mm/10.

184 ANNALS OF THE SOUTH AFRICAN MUSEUM

The name of H. scandens is used for this species in preference to H. calcarata
for the reasons given by Rees & Thursfield (1965: 76).

In view of the discovery of intermediate forms H. urceolata has now been
sunk in the synonymy of H. scandens.

Distribution. Cosmopolitan. Type locality: East Australia.

Distribution in South Africa. Common all round the coast from Lambert’s Bay
on the west to Mocambique on the east, littoral and 0-164 m. 32/18 (s), 33/17
(s), 33/18 (1, s), 34/18 (1, s), 34/19 (s), 34/20 (s), 35/20 (d), 34/21 (s), 35/21 (d),
34/22 (s), 34/23 (s, d), 33/25 (s), 34/25 (s), 33/26 (s), 33/27 (s), 33/28 (s), 32/28
(s), 31/29 (Ss), 31/30 , s), 30/30 ¢, s), 30/31 G, d); 29/31 (G, d); 29/325G)e 28/22
(S5G)5-26/32(6) 5 25/325)25/33(s)> 24/35(6)323)/ 301) S235

Genus Lafoea Lamouroux, 1821

Diagnosis. Colony normally erect, rarely with stolonial form. Erect stem fas-
cicled and branching; stem and branches bearing hydrothecae from all sur-
faces. Hydrotheca cylindrical to deep-campanulate, usually asymmetrical,
free from stem, not distinctly demarcated from pedicel, with no diaphragm or
annular perisarcal thickening, but with a ring of refringent dots marking the
base of the hydranth. No nematothecae. Gonothecae aggregated to form a
coppinia, which also contains modified protective hydrothecae. Gonophores in
the form of fixed sporosacs.

Type species: Sertularia dumosa Fleming, 1820.

Remarks. The four South African species of this genus are extremely difficult
to distinguish as they tend to grade Into one another and combine features of
the accepted European species. The most common form agrees best with
L. fruticosa. L. benthophila was originally described as a large variety of
L. gracillima. L. gracillima and L. fruticosa have been united by Naumov. Totton
keeps them separate, although his figures of the hydrothecae of the two species
appear identical. L. dumosa is perhaps the most easily distinguished, though it is
possible that all the South African material should be included in one species.
For the present they have been kept separate as recorded in the literature, with
the hope that in time the problem will be clarified by the discovery of more
reproductive bodies. So far only one coppinia has been discovered (assigned to
L. fruticosa). a

The key which follows is based mainly on the conception of Broch and
Stechow, but is unsatisfactory in that it does not cover intergrading forms.

KEY TO SPECIES Ss
1. Hydrotheca held perpendicular to stem or branch, with no distinct pedicel, but merely

an indentation at base ag st i iB me “ie ue .. L. dumosa
— Hydrotheca held at an angle to stem or branch, with a distinct pedicel as toc ogee
2. Hydrotheca large, over 0,9 mm in height including pedicel ue ff L. benthophila

— Hydrotheca small, under 0,9 mm in height including pedicel .. me L. fruticosa

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 185

Lafoea benthophila Ritchie, 1909

Fig. 61G

Lafoea gracillima var. benthophila Ritchie, 1909: 76, fig. 2.
Lafoea benthophila: Stechow, 1925a: 455, fig. 24D. Vervoort, 19665: 124, fig. 27.

Diagnosis. Colony small, reaching a height of 18 mm. Stem fascicled in lower
parts, branching irregularly.

Hydrotheca pedicellate, forming an angle with stem, deep-conical and
expanding slightly to margin, curved outwards, large (1,0 mm in height includ-
ing pedicel, 0,2 mm in marginal diameter). Reduplications of margin common.
Pedicel short (0,14-0,15 mm), without definite annulations, smooth or with
1-3 weak spiral twists.

Coppinia imperfectly known (not recorded from South Africa). Gono-
phores producing acrocysts, protected by ‘spiral hydrothecae’ (Stechow).

Distribution outside South Africa. Antarctic (type locality), Mediterranean,
Arabian Sea, East Africa, southern Indian Ocean, Indo-Malayan region. A
deep-water species, 425-3 246 m.

Distribution in South Africa. Reported only once in 425-430 m off Natal by
Vervoort (19665). 29/31 (d)

Lafoea dumosa (Fleming, 1820)

Sertularia dumosa Fleming, 1820: 84.
Lafoea dumosa: Broch, 1909: 156, fig. 16. Siechon 1925a: 455, fig. 24A. Fraser, 1944: 221,
pl. 45 (fig. 205), pl. 46 (fig. 205).

Diagnosis. Colony stiff and bushy, reaching a height of 20 mm. Stem fascicled
in lower parts, branching irregularly.

Hydrotheca without definite pedicel, separated from stem by indentation
only and with only occasional indications of a spiral twisting, held more or less
perpendicular to the stem, deeply conical and widening to margin, scarcely
asymmetrical and curved only slightly outwards, 0,6-0,7 mm in height includ-
ing pedicel and 0,14-0,16 mm in marginal diameter. Reduplications of margin
occurring. Exists also in creeping form, with solitary hydrothecae arising direct
from hydrorhiza.

Coppinia (not recorded from South Africa) hermaphroditic, with closely
packed gonothecae and long, tubular, curved hydrothecae projecting above
them. Gonotheca hexagonal in section, with terminal aperture on short neck.

Distribution. Cosmopolitan. Type locality: Newhaven, England.

Distribution in South Africa. Reported only once in 106 m off Cape Town by
Stechow (1925a). 33/18 (d)

186 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 61.

Lafoea fruticosa. A, stem; B, part of fascicled stem to show branching; C, hydrothecae;
D, surface view of part of coppinia; E, t.s. part of coppinia, with gonothecae (one with an
acrocyst) and tubular hydrothecae; F, epizootic colony growing on an older colony.

Lafoea benthophila. G, hydrothecae, redrawn from Vervoort (19665).

Scale: A in cm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 187

Lafoea fruticosa (M. Sars, 1851)
Fig. 61A-F

Campanularia fruticosa M. Sars, 1851: 138.

Campanularia gracillima Alder, 1856: 361, pl. 14 (figs 5-6).

Lafoea gracillima: Broch, 1909: 156, figs 17-18. Stechow, 1925a: 457, fig. 24C. Vervoort,
19665: 125, fig. 28. .

Lafoea fruticosa: Broch, 1909: 158, fig. 19. Stechow, 1925a: 456, fig. 24B. Fraser, 1944: 223,
pl. 46 (fig. 206). Vervoort, 19665: 126, fig. 29. Millard, 1964: 14, fig. 3. Millard, 1967:
175, fig. 2C. Vervoort, 1972: 66, figs 19-21. Millard, 1973: 28, fig. 4A.

Diagnosis. Colony usually shrubby in appearance, though not stiff, reaching a

height of 90 mm. Stem and main branches fascicled, giving off branches

irregularly from the accessary tubes.

Hydrotheca pedicellate, forming an angle of 40-60° with stem, usually
deeply campanulate and asymmetrical due to a greater convexity on adcauline
wall, 0,5-0,9 mm in height including pedicel and 0,11-0,19 mm in marginal
diameter. Margin very slightly everted. Reduplications of margin common.
Pedicel 0,09-0,3 mm in length, with one or more spiral twists. Exists also in
stolonial form, with solitary hydrothecae arising directly from hydrorhiza.

Coppinia with closely packed gonothecae and very long, tubular, coiled
hydrothecae projecting above them. Gonothecae bottle-shaped with terminal
aperture on short neck, more or less hexagonal in section, producing acrocysts,
about 0,4 mm in height. Hydrothecae over 3 mm in length.

Variation. The branching follows no definite scheme, though in the distal
regions of the colony the branches do tend to be in one plane and often uni-
lateral. Stolons arising from the tips of the branches and anastomosing with
other regions may result in a matted and shrubby effect.

The hydrothecae show much variation in shape, even within the same
colony. Apart from the typical shape described above, some are very slender
with almost parallel walls, and some are shorter and more obviously
campanulate.

A pedicel is always distinct and is typically bent or twisted with two or
three kinks, one adcauline, the second abcauline, and sometimes a third less-
marked adcauline one.

Distribution. Cosmopolitan. Type locality: Norway.

Distribution in South Africa. Along the south and east coasts, from off Table
Bay in the west into Mocambique on the east, in 64 to 430 m. 33/18 (s), 34/18 (s),
35/20 (d), 35/22 (d), 34/23 (d), 33/27 (s), 29/31 (s, d), 29/32 (s), 28/32 (s, d),
24/35 (d)

Genus Scandia Fraser, 1912

Diagnosis. Colony stolonial, with stalked hydrothecae arising directly from a
creeping hydrorhiza. Hydrothecae deeply campanulate, distinctly demarcated
from pedicel, with an annular perisarcal thickening around base. Gonothecae

188 ANNALS OF THE SOUTH AFRICAN MUSEUM

arising singly from the hydrorhiza, containing fixed sporosacs. No nemato-
phores.

Type species: Campanularia mutabilis Ritchie, 1907.
One species only in South Africa.

Scandia mutabilis (Ritchie, 1907)
Fig. 60D-E

Campanularia mutabilis Ritchie, 1907a: 504, pl. 23 (figs 3-5).
Campanularia corrugata: Billard, 1907a: 341, fig. 1. Jarvis, 1922: 337, pl. 24 (fig. 5).
Lafoea magna Warren, 1908: 342, fig. 22.
Hebella corrugata: Broch, 1914: 30, fig. 6.
Scandia mutabilis: Fraser, 1944: 208, pl. 39 (fig. 187). Millard, 1957: 202. Millard, 1958: 176.
Diagnosis. Colony growing on weed and other hydroids. Hydrotheca large,
deep-campanulate and often asymmetrical, usually smooth, with strongly
everted and frequently oblique margin, 1,1—3,9 mm in height and 0,6—2,2 mm
in marginal diameter. Annular thecal thickening present. Pedicel with 3-11
spiral annulations, 0,2-4,2 mm in length. Hydranth with about 22 tentacles.

Gonotheca (not reported from South Africa) with short pedicel of one
segment; male smooth and pear-shaped; female elongate-oval with truncated
distal end, more or less corrugated, containing many eggs.

Variation. This species varies considerably in the size and shape of the hydro-
theca. Rarely a few shallow transverse corrugations occur. Reduplications of
the margin are sometimes present.

Remarks. The trophosome is very similar to that of Hebella furax and is dis-
tinguished only by the greater size of the hydrotheca. The dimensions in fact over-
lap, though the mean height of the hydrotheca in H. furax is 0,8 mm (68 measure-
ments) and in S. mutabilis 1,7 mm (51 measurements). The pedicel length is so
variable that it cannot be used as a distinguishing character, though it tends to
reach greater lengths in S. mutabilis.

Distribution outside South Africa. Atlantic Ocean from the West Indies to
tropical West Africa and Cape Verde. Indian Ocean from tropical East Africa
to Ambon. Type locality: Cape Verde Is.

Distribution in South Africa. False Bay, Cape, to Mocambique, littoral to 44
m. 34/18 (s), 34/21 (s), 34/23 (1), 33/26 (1), 30/30 (s), 26/32 (s), 25/32, 24/35 (s),
Z3/35(1):

Genus Zygophylax Quelch, 1885
Syn. Lictorella Allman, 1888.
Brucella Ritchie, 1907.
Diagnosis. Colony normally erect, rarely with stolonial form. Erect stem
fascicled or unfascicled, branched or unbranched; when fascicled, branches
arising from axial tube and usually subalternate. Stem (and branches when

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 189

present) bearing hydrocladia, which are often not distinguishable from branches.
Hydrothecae arising from stem, branches and hydrocladia alternately in two
rows and from the axial tube when fascicled. Hydrotheca free from stem or
hydrocladium, ‘pedicellate, not externally demarcated from its pedicel, but with
it forming a bilaterally symmetrical figure whose shape is characteristic of the
species, internally demarcated from pedicel by a diaphragm. Nematothecae
usually present (always in South African species). Gonothecae usually aggregated
to form a coppinia, which usually also contains modified protective hydrothecae
or nematothecae. Gonophores in the form of fixed sporosacs.

Type species: Zygophylax profunda Quelch, 1885.

KEY TO SPECIES

1. At least some of the hydrocladia forked .. Ly oe re:

— Hydrocladia never forked. Gonothecae, where known, ageregated into coppinia onyies

2. Pedicel less than 4 length of hydrotheca (usually +). Gonothecae in pairs, not forming
coppinia .. Z. geminocarpa

— Pedicel more than 3 4 length of hydrotheca (usually 4). Gonothecae unknown Z. ?geniculata

3. Hydrotheca cornucopia-shaped, with plane of margin turned towards adcauline side 4
— Hydrotheca deep-campanulate or tubular, with plane of margin at right angles to axis

or turned towards abcauline side .. ie “its te? ae <3 Ke ad 5
4. Hydrotheca and pedicel of about equal length .. an a ie Z. sibogae
— Hydrotheca about twice as long as pedicel FY. z .. Z. infundibulum
5. Hydrotheca large (diameter at mouth over 0,16 mm). Nera tethoeds only rarely present

on stem apophyses. Coppinia without nematothecae .. Z. antipathes
— Hydrotheca smaller (diameter at mouth under 0,17 mm). Nematothecae regularly

present on stem apophyses. Coppinia with modified nematothecae .. ae 6

6. Hydrotheca tubular, strongly curved outwards, slender (length 24-34 times aeneret at
mouth). Coppinia closed. Gonotheca with paired distal horns over-arching lateral
orifices. One nematotheca on each apophysis_ .... Z. africana

- EL Gun shorter and wider, asymmetrical but not markedly curved outwards (length

3-23 times diameter at mouth). Two nematothecae on each apophysis

7. Coppinia closed. Gonotheca with a single, short distal tube and terminal orifice Z. armata
Coppinia open. Gonotheca with two curved necks with terminal orifices Z. biarmata

Zygophylax africana Stechow, 1923
Fig. 62A—E

Zygophylax africana: Stechow, 1925a: 445, fig. 18. Millard, 1964: 15, fig. 4A—-F. Millard,

1973: 28, fig. 4B.
Diagnosis. Colony erect and branching, reaching a height of 100 mm. Stem
somewhat flexuous (not able to support itself out of fluid), fascicled, unseg-
mented, giving rise to alternate hydrothecae and subalternate branches or
hydrocladia from the axial tube. Larger branches fascicled, given off in one
plane and at a wide angle to the stem (70—90°), giving rise to hydrothecae and
hydrocladia in a similar manner. Hydrocladia lightly fascicled or unfascicled,
unsegmented, generally arising below every third and fourth hydrotheca.
The two rows of hydrothecae in one plane.

Hydrotheca and pedicel seated on a short apophysis, slender at base, then

190 ANNALS OF THE SOUTH AFRICAN MUSEUM

widening to a tubular structure which is curved definitely outwards, with
slightly everted margin, 0,3-0,4 mm in total adcauline length and 0,07-0,10 mm
in marginal diameter. Pedicel short, 7's- 3 length of hydrotheca. Diaphragm
oblique with abcauline edge higher than adcauline, with central hydropore.

Nematothecae tubular, normally one on each hydrothecal apophysis,
and irregularly scattered on hydrorhiza and peripheral tubes of stem.

Gonothecae aggregated into a coppinia, firmly adpressed to one another
for about ? length, then free. Each gonotheca widening from base to top of
contiguous portion, with free part slender and bearing two lateral orifices and
two distal divergent horns. Coppinia provided with long, branching nemato-
thecae, at least twice length of gonothecae, male and female similar.

Variation. The branching may show irregularities and occasionally an arrange-
ment whereby branches arise below every third hydrotheca. Anastomoses
between branches are common. Occasional transverse nodes may occur within
branches and hydrocladia. Axillary hydrothecae are shifted onto the apophyses
of the hydrocladia, as are their nematothecae. Reduplications of the thecal
margin are common.

Solitary hydrothecae may arise from the hydrorhiza or from young epi-
zootic colonies; these are curved as in the adult or quite symmetrical and straight.

Distribution. Endemic to South Africa. Type locality: off Cape Town, 33°41 ‘S/
18°0’E

Distribution in South Africa. West coast to Agulhas Bank in 137-363 m. 29/14
(d), 30/15 (d), 33/18 (d), 34/18 (d), 35/22 (d), 34/24 (d)

Zygophylax ?antipathes (Lamarck, 1816)
Fig. 62F-—G

Sertularia antipathes Lamarck, 1816: 115.
Lictorella halecioides Ailman, 1888: 35, pl. 17 (figs. 1-2).
Lictorella cyathifera Allman, 1888: 36, pl. 11 (figs 3—3a).
Lictorella antipathes: Billard, 1910: 6, fig. 1. Totton, 1930: 166.
Zygophylax antipathes: ?Millard & Bouillon, 1973: 62, fig. 8H. Watson, 1973: 164, fig. 9.
Diagnosis. Colony erect and branching, reaching a height of 47 mm. Stem
moderately stiff, fascicled, unsegmented, giving rise to alternate hydrothecae
and subalternate branches or hydrocladia from the axial tube. Larger branches
fascicled at base, given off in one plane and at almost right angles to the stem,
giving rise to hydrothecae and hydrocladia in a similar manner. Hydrocladia
unfascicled; unsegmented; generally arising below every third and fourth
hydrotheca. The two rows of hydrothecae in one plane or shifted slightly on to
the anterior surface.

Hydrotheca and pedicel seated on a short apophysis, deep-campanulate,
symmetrical or (more often) asymmetrical with the adcauline side more convex
than the abcauline, with slightly everted margin, 0,4-0,6 mm in total length
and 0,17-0,2 mm in marginal diameter. Pedicel 4-2 length of hydrotheca.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 191

G

Fig. 62.

Zygophylax africana. A, t.s. part of coppinia, with female gonothecae and branching nema-
tothecae; B, surface view of coppinia; C, solitary hydrothecae; D, part of fascicled stem
to show branching (branches cut off short); E, part of branch.

Zygophylax antipathes. F, basal part of hydrocladium with axillary and following two
hydrothecae; G, stem.

Scale: D and G in mm, the rest in mm/10.

192 ANNALS OF THE SOUTH AFRICAN MUSEUM

Diaphragm thick, straight and at right angles to hydrothecal axis, with central
hydropore.

Nematothecae tubular, scarce, seated on hydrothecal apophyses, but only
one or two to a branch.

Gonothecae (not reported from South Africa) aggregated into a coppinia,
with hooded apertures and no protective nematothecae. (From Totton.)

Variation. Stems have been reported to reach as much as 120 mm outside South
Africa. The usual irregularities occur in the method of branching, and occa-
sional transverse nodes may occur in the stem and hydrocladia. Axillary hydro-
thecae are shifted on to the apophyses of the hydrocladia. The pedicel of the
hydrotheca is usually separated from its apophysis by a distinct node, but the
node is sometimes incomplete or absent altogether.

Remarks. The final identification of this species must await the discovery of
gonophores. It is closely related to Z. armata and Z. biarmata, differing from
them in the larger hydrothecae, stronger diaphragm and scarce nematothecae.

Distribution outside South Africa. Australasia (type locality: ‘mers australes ou
de la Nouvelle-Hollande’), East Indies, South Pacific (New Hebrides),
?Seychelles.

Distribution in South Africa. Off Natal and Mocambique in 6-110 m. 30/30 (s),
29/31 (s), 28/32 (s), 26/34 (s), 25/33 (s), 24/34 (s), 24/35 (d)

Zygophylax armata (Ritchie, 1907)

Fig. 63A—B
Brucella armata Ritchie, 1907b: 533, pl. 2 (fig. 2-2C).
Zygophylax armata: Millard, 1964: 18, fig. 4G. Rees & Thursfield, 1965: 77.
Diagnosis. Colony erect and branching, reaching a height of 42 mm. Stem stiff
and fascicled, unsegmented, giving rise to alternate hydrothecae and roughly
alternate branches or hydrocladia from the axial tube. Main branches fas-
cicled, given off in one plane and at an angle of 50-80° to stem, giving rise to
hydrocladia in a similar manner. Hydrocladia unfascicled or lightly fascicled,
unsegmented, each arising from immediately below a hydrotheca. The two rows
of hydrothecae in ohe plane or shifted onto the anterior surface.

Hydrotheca and pedicel seated on a short apophysis, slender at base, then
widening to an asymmetrical tubular structure with a convex adcauline wall
and a straight or slightly concave abcauline wall, 0,19-0,4 mm in total adcauline
length and 0,10-0,16 mm in marginal diameter. Pedicel short, #s-+ length of
hydrotheca. Diaphragm straight or slightly oblique, with central hydropore.

Nematothecae tubular, normally two on each hydrothecal apophysis (one
anterior and one posterior) and irregularly scattered on peripheral tubes of
stem.

Gonothecae (not reported from South Africa) aggregated into a coppinia,

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 193

flask-shaped with short and slender distal neck and terminal orifice. Coppinia
provided with numerous long, branching nematothecae. (From Ritchie.)

Variation. The branching is much more irregular than in other closely related
species of Zygophylax and only rarely does the subalternate arrangement
typical of so many Lafoeidae occur. A height of 60 mm has been reported from
outside South Africa. The margin of the hydrotheca is often slightly everted.

Solitary hydrothecae may arise separately from the hydrorhiza or from
epizootic colonies. These tend to be less bilaterally symmetrical than in the
adult, and are often quite irregular.

Remarks. Though the trophosome of this species agrees perfectly with the
original description, the identity cannot be absolutely certain until fertile
material is discovered.

Distribution outside South Africa. Off Gough Island in the South Atlantic (type
locality).

Distribution in South Africa. From the south-east coast of the Cape Province
northwards into Mocambique in 48-440 m. 33/27 (s), 33/28 (s), 30/31 (s),
29/31 (s, d), 29/32 (s), 28/32 (s, d), 24/35 (d)

Zygophylax ?biarmata Billard, 1905

Fig. 63C

Zygophylax biarmata: Billard, 1906: 180, fig. 8. Broch, 1918: 24.
2Zygophylax biarmata: Jarvis, 1922: 335. Millard, 1958: 176, fig. 4A. Millard, 1968: 263.
Diagnosis. Trophosome as in Zygophylax armata.

Gonothecae (not recorded from South Africa) aggregated into a loose (or
open) coppinia, ‘flattened-ovate, with an outward and downward curving neck
distally on either side in the transversal plane’. Coppinia richly provided with
nematothecae. (From Broch.)

Remarks. Z. biarmata is essentially a north Atlantic species. The coppinia was
described by Broch, though unfortunately not illustrated, from material from
Iceland. The coppinia is completely different from that of Z. armata, though
there seems little to distinguish the trophosomes. Infertile material recorded as
Z. biarmata from East Africa by Jarvis and from South Africa doubtfully
by Millard possibly all belongs to Z. armata. Z. biarmata is included here since
the possibility of its presence in the country cannot be disregarded. Only the
discovery of fertile material can settle the question.

Distribution outside South Africa. Bay of Biscay and Straits of Gibralter (type
locality), North Atlantic (Iceland to north-west Africa), ?Japan, ?Tropical East
Africa.

Distribution in South Africa. Dubious records from off Natal in 164-333 m.
230/31 (d), 229/31 (d)

194 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 63.

Zygophylax armata. A, part of hydrocladium; B, stem.
Zygophylax ?biarmata. C, hydrothecae.
Zygophylax geminocarpa. D, part of hydrocladium; E, cauline hydrotheca with nema-
tothecae; F, a pair of gonothecae; G, stem.
Scale: B, F and G in mm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 195

Zygophylax geminocarpa Millard, 1958
Fig. 63D-G
Zygophylax geminocarpa Millard, 1958: 177, fig. 4D-G.

Diagnosis. Colony erect and branching, reaching 110 mm. Stem and main
branches stiff, woody and heavily fascicled, giving rise to smaller, lightly
fascicled branches and unfascicled hydrocladia subalternately and in one plane.
Smaller branches giving off hydrocladia in a similar manner. Stem and branches
bearing alternate hydrothecae from the axial tube, usually three and one
alternately between consecutive branches or hydrocladia, those of the thicker
parts buried by the peripheral tubes. Hydrocladia bearing alternate hydrothecae;
either simple, with the two rows of hydrothecae in one plane; or forked at the
base in a plane at right angles to the normal plane of branching, with the two
rows of hydrothecae on each limb not in one plane but seated on the inner
surface of the fork. Branches and hydrocladia with occasional transverse nodes
at irregular intervals.

Hydrotheca seated on a short apophysis and a pedicel. Pedicel and hydro-
theca together widening fairly rapidly to form a bilaterally symmetrical figure
with a bulging adcauline wall and a more or less straight abcauline wall, and
with margin everted, more so on adcauline side; 0,4-0,5 mm in abcauline
length and 0,17—0,2 mm in marginal diameter. Pedicel about one quarter length
of hydrotheca. Diaphragm thick, with central hydropore.

Nematotheca tubular, swollen at or below margin, two-chambered, with
basal chamber very small; 1-4 (usually 2) on each hydrothecal apophysis, and
irregularly scattered on peripheral tubes of stem.

Gonothecae not aggregated into coppinia, but attached in pairs (rarely
single), these pairs occurring in dense clusters around certain areas of stem and
main branches. Gonotheca elongated, tapering to tip, round in section, fused
to its twin for about ? length, then free, bearing scattered nematothecae on
lower part.

Distribution. Endemic to South Africa. Type locality: off Port Shepstone, Natal.
Distribution.in South Africa. Reported only once as above. 30/30 (s)

Zygophylax ?geniculata (Clarke, 1894)

Fig. 64
Lictorella geniculata Clarke, 1894: 74, pl. 3.
Zygophylax geniculata: Leloup, 1940: 13, pl. 1 (fig. 9).
Zygophylax ?geniculata: Millard, 1968: 264, fig. 3.
Diagnosis. Colony erect and branching, reaching a height of 50 mm. Stem stiff,
fascicled, unsegmented, giving rise to alternate hydrothecae and subalternate
branches or hydrocladia from the axial tube. Branches fascicled, given off in
one plane and almost at right angles to stem, giving rise to hydrocladia in a
similar manner. Hydrocladia unfascicled or lightly fascicled at base; with distant

196 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 64.

Zygophylax ?geniculata. A, part of stem and hydrocladia (some forked); B, hydrocladium;
C-E, hydrothecae and nematothecae (the third hydrotheca is axillary).
Scale: A in mm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 197

and irregular transverse nodes; generally arising below every third and fourth
hydrotheca of stem; bearing alternate hydrothecae; often subdichotomously
forked at the base in a plane at right angles to the normal plane of branching,
the anterior limb of the fork being less well developed than the posterior. The
two rows of hydrothecae in one plane or shifted towards the anterior surface,
those of the anterior limb of a forked hydracladium shifted towards the posterior
surface.

Hydrotheca and pedicel seated on a short apophysis from which they are
separated by at least one internode bounded by transverse nodes. Pedicel and
hydrotheca slender proximally, widening just beyond diaphragm where the
adcauline wall is usually more convex than the abcauline, slightly constricted
just below margin; 0,4—0,5 mm in length and 0,11—0,15 mm in marginal diameter.
Margin slightly everted and perpendicular to axis. Pedicel 3-7 length of hydro-
theca and forming an angle of up to 70° with stem. Diaphragm delicate, straight
or oblique, with central hydropore.

Nematothecae tubular, scarce, on peripheral tubes of stem, apophyses of
hydrocladia and apophyses of hydrothecae.

Gonothecae unknown.

Remarks. The material assigned to this species shows certain differences from
the type material, viz. the presence of a segment below the hydrothecal pedicel,
the forking of some hydrocladia and the presence of nematothecae. It is close to
Z. bifurcata Billard, 1942, from the Isle of Timor. This species has bifurcated
hydrocladia throughout and very similar nematothecae, but the pedicel of the
hydrotheca is much longer and the hydrotheca larger. Final identification must
await further material and gonothecae.

Distribution outside South Africa. Gulf of Panama (type locality), Azores.

Distribution in South Africa. Reported only once from off the Cape Peninsula
in 287 m. 34/18 (d)

Zygophylax infundibulum Millard, 1958
Fig. 65D-E
Zygophylax infundibulum Millard, 1958: 180, fig. 4B—C.

Diagnosis. Colony erect and branching, reaching a height of 60 mm. Stem
moderately stiff, fascicled, unsegmented, giving rise to alternate hydrothecae
and subalternate branches or hydrocladia from the axial tube. Branches fas-
cicled, given off in one plane and at a wide angle to the stem (50-60°), giving
rise to hydrothecae and hydrocladia in a similar manner. Hydrocladia unfas-
cicled or lightly fascicled, unsegmented; generally arising below every third
and fourth hydrotheca; bearing alternate hydrothecae. The two rows of hydro-
thecae not in one plane but on anterior surface, with an acute angle between
them and with the members of one row rotated so that they face slightly away
from those of the other row.

198 ANNALS OF THE SOUTH AFRICAN MUSEUM

Hydrotheca and pedicel seated on a short apophysis; widening gradually
to margin; together with a cornucopia shape and double curvature (first out-
wards, then upwards), 0,6-0,7 mm in total length and 0,11—0,14 mm in marginal
diameter. Pedicel about half length of hydrotheca. Diaphragm well formed,
markedly funnel-shaped, better developed on abcauline side and with
hydropore slightly off-centre.

Nematothecae elongate-oval, one on each hydrothecal apophysis.

Gonothecae unknown.

Variation. Many irregularities occur in the method of branching and the inter-
vals between consecutive hydrocladia. Rare transverse nodes occur in the
hydrocladia, midway between two hydrothecae. The hydrotheca in the axil of a
hydrocladium is shifted on to the apophysis of the latter, and its nematotheca is
not on its own apophysis but on that of the hydrocladium. Regeneration is
common, especially within the pedicel and lower part of the hydrotheca.

Distribution. Endemic to South Africa. Type locality: off Natal.
Distribution in South Africa. Reported twice off Natal in 155-219 m. 29/31 (d)

Zygophylax sibogae Billard, 1918
Fig. 65A—C

Zygophylax sibogae Billard, 1918: 21, fig. 1. Totton, 1930: 167, fig. 21. Ralph, 1958: 311,
fig. 2e-i. Millard, 1964: 21, fig. SG—H.

Diagnosis. Colony erect and branching, reaching a height of 30 mm. Stem stiff,
fascicled, unsegmented, giving rise to alternate hydrothecae and subalternate
branches or hydrocladia from the axial tube. Branches fascicled, given off in one
plane and at a wide angle to the stem (50-70°), giving rise to hydrothecae and
hydrocladia in a similar manner. Hydrocladia unfascicled or lightly fascicled,
unsegmented; generally arising below every third and fourth hydrotheca;
bearing alternate hydrothecae. The two rows of hydrothecae not in one plane
but borne on anterior surface, with an acute angle between them and with the
members of one row rotated so that they face slightly away from those of the
other row.

Hydrotheca and pedicel seated on a short apophysis: slender and tubular
for the proximal half, then widening and strongly recurved towards distal end
of colony in the manner of a cobra’s hood, 0,5—0,6 mm in total length and 0,11-
0,13 mm in marginal diameter. Pedicel of approximately same length as hydro-
theca. Diaphragm well formed, often funnel-shaped, with central hydropore.

Nematothecae tubular, on the peripheral tubes and one on each hydrothecal
apophysis.

Gonothecae (not reported from South Africa) aggregated into a coppinia
in which some are tightly packed and some quite free, the whole provided with
modified protective nematothecae. Free gonotheca spherical, with two recurved

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 199

2

Fig. 65.

Zygophylax sibogae. A, stem; B and C, part of hydrocladium in ventral and anterior view
respectively.
Zygophylax infundibulum. D, stem; E, hydrocladium.
Scale: A and D in mm, the rest in mm/10.

200 ANNALS OF THE SOUTH AFRICAN MUSEUM

distal extensions with terminal apertures. Fused gonothecae more variable and
irregular.

Distribution outside South Africa. Dutch East Indies (type locality), New
Zealand.

Distribution in South Africa. Reported once only, from the Agulhas Bank off
the south-east coast in 88 m. 33/27 (s)

Family Campanulariidae

Diagnosis. Thecate hydroids with campanulate or cup-shaped hydrothecae,
which may be radially or bilaterally symmetrical and into which the hydranth
may or may not be completely withdrawn. Hydrotheca stalked, without oper-
culum, with toothed or untoothed margin, divided into a small proximal and a
large distal hydranth-containing region by a diaphragm or annular thickening
of the perisarcal wall. Hydranth with trumpet-shaped hypostome, one circle of
filiform tentacles and homogeneous endoderm. Nematophores absent. Gono-
phores in the form of fixed sporosacs or free medusae.

Medusa when present, with small stomach, no peduncle, usually four
simple radial canals, no excretory pores, hollow or, rarely, solid marginal
tentacles, no cirri, closed statocysts (marginal vesicles), no ocelli. Gonads
borne on radial canals separated from stomach.

Introduction. Among the Campanulariidae the colony may be stolonial or erect.
The erect stem is in reality a sympodium in which each hydrotheca arises,
alternately on the right and the left, from the base of the one below it, and is
characteristically GENICULATE or zigzag. Branching commonly occurs, branches
usually arising next to the hydrothecal pedicels, and normally of much the
same strength as the stem itself. This results in feathery colonies with no thick
and obvious main stem. Fascicled stems are comparatively rare. The stem is
usually divided into internodes, each bearing a hydrotheca.

The hydrothecae are pedicellate, and the pedicels may be smooth, roughly
corrugated or distinctly annulated. In the genus Campanularia there is always
one distinct ‘spherule’ at the distal end of the pedicel, usually of a smaller
diameter.

The hydrotheca is typically CAMPANULATE, or inverted bell-shaped, though
variations do occur, some being almost tubular, others cup-shaped, and some
distinctly bilaterally symmetrical. The basal part of the cavity of the hydrotheca
is separated from the distal part containing the hydranth by a diaphragm or
analogous structure. In the genera Clytia, Obelia, Gonothyraea and Eulaomedea
a true DIAPHRAGM is present in the form of a thin perisarcal shelf on which the
base of the hydranth rests. This diaphragm is usually exceedingly delicate, but
occasionally, as in Obelia geniculata and some species of Clytia, it may be
thickened and almost triangular in section. In the genera Campanularia and
Silicularia there is no true diaphragm, but instead an ANNULAR THICKENING of

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 201

the perisarcal wall, to the upper surface of which the base of the hydranth is
attached. This thickening may be either very marked or inconspicuous.

In the genus Silicularia and in certain species of Campanularia (previously
included in a separate genus Orthopyxis) the walls of the hydrotheca may be
grossly thickened. This thickening typically occurs on two opposite sides
imparting a bilateral symmetry to the hydrotheca and an oval rather than a
circular cross-section. In the relevant Campanularia species this thickening is
not sufficient to prevent the complete withdrawal of the hydranth into the
cavity. The thickening appears to be a potentiality rather than an invariable rule,
and thickened, bilaterally symmetrical hydrothecae may occur side-by-side
with unthickened, radially symmetrical ones. For this reason it is not logical to
retain a separate genus Orthopyxis. In Silicularia the thickening is always present
and is developed to such an extent that the cavity can no longer contain the
retracted hydranth. Furthermore the bilateral symmetry is more pronounced,
one side of the thecal margin being higher than the other.

simple teeth —bilobed THICKENED WALLS

teeth

annular thickening

diaphragm
— terminal spherule
—annulations

USE

Fig. 66.
Campanulariidae: structure and types of hydrothecae.

The reproduction in the Campanulariidae is very variable, and all grades of
gonophore from fixed sporosacs to free-swimming medusae occur. This has been
the cause of much disagreement on the limitation of genera, some authors basing
the classification on the trophosome only and ignoring the reproductive bodies
and others creating different genera for all different types of reproductive body.
Following the practice in this monograph separate genera are retained for forms
with fixed sporosacs and forms with free medusae, including for this purpose
the various grades of degenerate medusae from the styloid to the eumedusoid
type with the fixed sporosacs. The difficulty is that it may be necessary to have
fertile material in order to delegate it to its genus and species. Infertile colonies
of Obelia, Gonothyraea and Eulaomedea, for instance, are very similar in
appearance.

The names of the various grades of degenerate medusae are defined on
p. 18, and examples of all these types can be found among the Campanulariidae.
Occasionally more than one type may occur within the same species. In Cam-
panularia integra, for instance, it has long been known that the gonosome

202 ANNALS OF THE SOUTH AFRICAN MUSEUM

may produce either fixed sporosacs, in which the eggs and planulae are retained
in the gonotheca, or eumedusae with a short free-living existence (Agastra).
It was thought that the difference was dependent on the season of the year, yet
in South Africa the two types have been found within a single colony and at the
same time. The control of the process is clearly not yet understood. In some
species there is a sexual difference in the type of reproductive body; thus in
Eulaomedea flexuosa the male gonophores are styloid and the female heterome-
dusoid.

Two genera which produce fully-formed medusae, namely Clytia and
Obelia, have very similar trophosomes, differing only in the stolonial colonies of
the former and the erect stems of the latter. The medusae, however, are very
different, those of C/ytia being hemispherical with hollow marginal tentacles and
a well developed velum, and those of Obelia shallow saucer-shaped, with solid
marginal tentacles and a reduced velum. These two genera must thus remain
separate.

The genus Gonothyraea is closely related to Eulaomedea, which has fixed
sporosacs, but can be retained as a separate genus on the grounds of its unusual
reproductive bodies, which are of the eumedusoid type and are extruded
through the opening of the gonotheca. where they hang in clusters until the
planulae are released. These medusiform bodies, which have comparatively
well developed marginal tentacles, are known as MECONIDIA (Fig. 74C-—F).

Two genera of doubtful affinities have been omitted from the following key;
they are not known in South Africa. Billardia Totton, 1930, placed in the
Campanulariidae by Totton and by Ralph (1957), shows relationships with the
Lafoeidae (in the curved bilaterally symmetrical hydrothecae) and with the
Syntheciidae (hydrothecae sometimes slightly adnate). Tulpa Stechow, 1921
is distinguished from Campanularia only by the greater size and characteristic
shape (tulip-shape) of the hydrotheca.

KEY TO GENERA

[Genera not represented in South Africa are bracketed]

1. Colony stolonial a : 2
— Colony with an erect stem, bearing alienate hydrothecae. Hydrotheca with
true diaphragm, which is distinctly demarcated from its wall .. ae a 4

2. Hydrotheca with true diaphragm, which is distinctly demarcated from its wall.
Producing free medusae a Clytia p. 213
— Hydrotheca without true diaphragm, but with an ‘annular perisarcal thickening
near base. Producing fixed sporosacs, which may rarely take the form of
degenerate, short-lived medusae without stomach or marginal tentacles ne 3

3. Hydranth completely retractable into hydrotheca. Hydrotheca usually radially
symmetrical, occasionally thickened and with bilateral tendencies | Campanularia p. 203

— Hydranth not completely retractable into hydrotheca. Hydrotheca always bila-
terally symmetrical and grossly thickened he af at [ Silicularia]

4. Gonophores released as free medusae
— Gonophores not released as free medusae

NN

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 203

5. Medusa shallow, with 16 marginal tentacles, 8 eat and a rudimentary velum

on liberation .. so Obelia p. 226
— Medusa deep, with 4 ‘marginal tentacles, numerous statocysts and a normal velum

on liberation .. ce Bic 3 of br a 2s oy Clytia p. 213
6. Gonophores forming degenerate medusae (meconidia) which are discharged into

acrocysts where they become sexually mature... . Gonothyraea p. 224
— Gonophores in the form of fixed sporosacs or degenerate medusae which do not

leave the gonotheca .. a. ae ne Ps, oe nf Eulaomedea p. 223

Genus Campanularia Lamarck, 1816

Syn. Orthopyxis L. Agassiz, 1862.
Eucopella von Lendenfeld, 1883.
Agastra Hartlaub, 1897.

Diagnosis. Colony stolonial; hydrothecal pedicel unbranched, with at least
one terminal spherule. Hydrotheca campanulate or funnel-shaped, usually
radially symmetrical but sometimes grossly thickened on two opposite sides,
with toothed or untoothed margin. An annular perisarcal thickening present
inside base of hydrotheca. Hydranth completely retractable into hydrotheca.
Gonotheca borne on hydrorhiza, containing fixed sporosacs or degenerate
medusae (eumedusae) which may rarely have a short free-swimming life.
Eumedusa, when present, without stomach, usually without marginal tentacles,
with four radial canals and eight closed statocysts.

Type species: Sertularia volubilis Linnaeus, 1758.

KEY TO SPECIES

1. Margin of hydrotheca never toothed. Perisarc capable of great thickening .. C. integra
— Margin toothed in at least some hydrothecae ... yi te Es es Sen ieenlD:
2. Marginal teeth double or truncated a be - i, C. hincksii
— Marginal teeth single; pointed or rounded ~ Er eae = st by penis
3. Perisarc never markedly thickened ‘ , - Bs “6 aud biled,
— Perisarc of at least some hydrothecae grossly thickened oy or = aT a
4. Hydrotheca with raised rim below margin. Gonotheca annulated ~ C. morgansi
— Hydrotheca without raised rim. Gonotheca not annulated as es ce wr eS
5. Colony epizootic on Thyroscyphus. Gonotheca laterally compressed .. C. laminacarpa
— Colony growing on weed. Gonotheca round in section fe: an C. africana
6. Gonotheca scallop-shaped, opening around periphery .. b oe on in eet |
— Gonotheca not scallop-shaped, with terminal opening .. <2 A om a:
7. Hydrotheca asymmetrically thickened on the two sides. Gonophores in the form of
fixed sporosacs é a4 1Caroberti
— Hydrotheca symmetrically thickened on two opposite sides. Gonophores eumedusoid
with a short free-living life .. = ik oe at on me 1. @2pecten

8. Most hydrothecae compressed, with low, rounded marginal teeth. Pedicel deeply and
spirally grooved. Gonotheca compressed, widest at distal end . ; .. C. crenata

— Hydrotheca not, or only slightly, compressed, with deeper, triangular marginal teeth
Pedicel closely annulated at both ends, smooth between. Gonotheca not compressed,
widest near centre .. a. ee + as, or + ae C. ?delicata

204 ANNALS OF THE SOUTH AFRICAN MUSEUM

Campanularia africana Stechow, 1923

Fig. 67A

Campanularia tincta: Warren, 1908: 337, fig. 18.

Campanularia africana Stechow, 19236: 104.

Diagnosis. Colony growing on weeds and other hydroids, reaching 3 mm in
height. Hydrothecal pedicel smooth or corrugated, with one spherule of smaller
diameter at distal end.

Hydrotheca deep-campanulate, with almost parallel sides, 0,5-0,8 mm
in depth and 0,3-0,5 mm in marginal diameter. Margin with 10-12 rounded
teeth separated by rounded bays of approximately thesame size. Hydranth
with about 25 tentacles.

Gonotheca borne on hydrorhiza, cylindrical to ovate, round in section,
smooth or with irregular corrugations, narrowing slightly towards distal end,
then widening to low, everted collar around circular terminal aperture. Female
containing eggs or planulae.

Remarks. Sterile colonies of this species cannot be distinguished from
C. laminacarpa.

Distribution outside South Africa. Australja, Japan.

Distribution in South Africa. Natal, littoral to 48 m. Type locality: Park Rynie.
30/30 (1), 28/32 (s)

Campanularia crenata (Hartlaub, 1901)
Fig. 68A—F

Eucopella crenata Hartlaub, 19015: 364, pl. 22 (figs 27-31, 33-35). Hirohito, 1969: 7, fig. 7.
Orthopyxis crenata: Ralph, 1957: 838, fig. 6g—v.
Campanularia crenata: Millard & Bouillon, 1973: 47, fig. 6B-F.
Diagnosis. Colony growing on weed, reaching 1,4 mm in height. Hydrothecal
pedicel deeply and spirally grooved, with one separate spherule of smaller
diameter at distal end, with thickened perisarc.

Hydrotheca deep-bell-shaped, 0,3-0,5 mm in depth and 0,18-0,4 mm in
maximum diameter, depth always greater than diameter, usually compressed,
perisarc often greatly thickened, especially at the narrow ends, but thinning
down at margin. Margin with 12-13 low, rounded teeth.

Gonotheca borne on hydrorhiza on short, smooth pedicel, strongly com-
pressed, truncated distally and with widest part at distal end, smooth or with
irregular outline; male containing one gonophore with four columns of sperma-
togenic cells; female containing two gonophores, one large and one small,
with eggs in longitudinal rows.

Variation. The spiral grooving on the pedicel usually extends throughout, but
occasionally there are smooth areas.
In the thicker hydrothecae marginal teeth may be absent. This appears to

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 205

Fig. 67.

Campanularia africana. A, colony with female gonophores, redrawn from Warren (1908, as
Campanularia tincta).
Campanularia hincksii. B—D, hydrothecae; E, gonotheca.
Campanularia laminacarpa. F-H, hydrothecae; J, male gonophore; K, female gonophore.
Scale in mm/10.

206 ANNALS OF THE SOUTH AFRICAN MUSEUM

be the result of damage and loss of the ‘thinned down’ edge bearing the teeth.
The type material had some hydrothecae without teeth.

The gonophore is reported to have a short free-living life as a eumedusa,
possessing four radial canals and eight statocysts, but with no marginal ten-
tacles or stomach (Hirohito).

Distribution outside South Africa. Atlantic (Sargasso Sea to Cape Verde),
Mediterranean, Seychelles, Australasia, Japan, Chile. Type locality: New
Zealand.

Distribution in South Africa. Mocgambique only, Inhaca to Inhambane, littoral
to 3 m. (For Campanularia ?crenata in Millard 1958, see C. delicata.) 26/32
(I), 24/35 (s)

Campanularia ?delicata (Trebilcock, 1928)
Fig. 68G—L

Orthopyxis delicata Trebilcock, 1928: 3, pl. 2 (fig. 1-1f). Ralph 1957: 837, 840, fig. 7a—d.
Campanularia ?crenata: Millard, 1958: 170, fig. 2A—C, E.
Campanularia delicata: Millard & Bouillon, 1973: 48, fig. 6G-M.
Diagnosis. Colony usually growing on weed, reaching 4,6 m in height. Hydro-
thecal pedicel annulated to a varying extent at base and distal end, but always
with one flattened spherule of smaller diameter at distal end.

Hydrotheca funnel-shaped, with straight or slightly curved sides widening
to margin, 0,3-0,6 mm in depth and 0,2-0,6 mm in marginal diameter, depth
usually more or less equal to diameter, circular in cross-section. Margin with
9-15 triangular teeth. Perisarc capable of great thickening to a level just below
the margin and excluding the marginal teeth.

Gonotheca borne on hydrorhiza on short, smooth pedicel; erect, circular
or very slightly compressed in section, deep-oval in side view with widest part
near centre.

Variation. The amount of annulation on the pedicel varies. At the base there
may be up to 11 annulations and at the distal end up to 15, the intervening
stretch being smooth or corrugated. Short pedicels are usually annulated
throughout.

The annular perisarcal thickening round the base of the hydrotheca may or
may not be separated from the thecal wall by a definite line.

Remarks. On the basis of Ralph’s work (1957) Millard’s material reported as
Campanularia ?crenata in 1958 has been transferred to C. delicata. The two
species are not easily distinguished and it may be necessary to unite them in the
future. C. delicata is characterized by a hydrotheca which is not compressed
and has deeper marginal teeth and by a gonotheca which is broadest near the
centre and is not or only very little compressed. The pedicel is also different,
with distinct but shallow annulations at the two ends instead of the deep spiral
grooving of C. crenata.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA

207

SNe

Rope

Fig. 68.

Campanularia crenata. A—C, hydrothecae; D, t.s. hydrotheca; E, male gonophore; F, female
gonophore.

Campanularia ?delicata. G-J, hydrothecae (the centre one the most typical); K, t.s. hydrotheca;
L, male gonophores.

Scale in mm/10.

208 ANNALS OF THE SOUTH AFRICAN MUSEUM

Distribution outside South Africa. New Zealand, Australia, ?Sargasso Sea,
Seychelles. Type locality: Dunedin, New Zealand.

Distribution in South Africa. Mocgambique (Kosi Bay to Inhambane), littoral to
15 m. 27/32 (1), 26/32 (1, s), 25/32, 24/35 (s)

Campanularia hincksii Alder, 1856
Fig. 67B-E

Campanularia hincksii Alder, 1856: 360, pl. 13 (fig. 9). Hincks, 1868: 162, fig. 18, pl. 24 (fig. 3).
Millard, 1966a: 471, fig. 12A—D.

Diagnosis. Colony reaching a height of 8,4 mm. Hydrothecal pedicel not
annulated or corrugated, but with a single spherule at distal end.

Hydrotheca deep-campanulate, large, 0,9-1,6 mm in depth and 0,5-0,9
mm in marginal diameter, depth 14-2} times diameter, longitudinally striated
in distal part, polygonal in cross-section. Margin with 8-12 broad teeth which
are usually hollowed distally to form two points.

Female gonotheca borne on hydrorhiza, elongate-oval, with widest part
near base and narrowing slightly to truncated distal end, with about eight
rounded transverse annulations, containing fixed sporosacs.

Variation. The hydrothecal pedicel occasionally shows irregularities such as
cross-striations, but these appear to be due to regeneration after injury. Alder
shows ‘two or three slight spiral twists’ at the base of the pedicel in the type
material, but these have not been observed in South Africa.

The marginal teeth are occasionally truncated distally, and this appears to
be the result of wearing down of the two points. The longitudinal striations on
the hydrotheca start at the angles between the marginal teeth and are continued
to a varying degree down its length. In some cases they reach to the base, and
in others they peter out about halfway.

Male gonothecae have not been seen in South Africa and there is some
doubt as to their structure. Stechow (19195) describes smooth male gonothecae

which widen distally in C. alta, thought by Broch (1933) to be a synonym for
C. hincksii.

Distribution. Cosmopolitan. Type locality: Northumberland, U.K.

Distribution in South Africa. Off East London, in 86-210 m. Rare. 32/28 (s),
32/29 (d)
Campanularia integra MacGillivray, 1842
Fig. 69
Campanularia integra MacGillivray, 1842: 465. Hincks, 1868: 163, pl. 31 (fig. 1). Broch,

1909: 185, fig. 40. Millard, 1966a: 472, fig. 13A—D.

Campanularia caliculata Hincks, 1853: 178, pl. 5 (fig. B). Hincks, 1868: 164, pl. 31 (fig. 2).
Warren, 1908: 338, fig. 19.

Campanularia compressa Clarke, 1876: 214, pl. 8 (figs 5-6).

ae mira Hartlaub, 1897: 504, pl. 22 (figs 5, 8-10). Russell, 1953: 303, figs 186-188,
pl. 19 (fig. 1).

Agastra rubra Behner, 1914: 393, figs 8-10, pl. 7 (fig. 6). Kramp, 1959: 146, fig. 183.

?Campanularia gracilis Stechow, 1925a: 423, fig. 6.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 209

Diagnosis. Colony growing on weeds, other hydroids and the crab Dehaanius
dentatus, reaching 4 mm in height. Hydrorhiza reticulate, often with a flat
lateral flange of perisarc. Hydrothecal pedicel spirally annulated, roughly
corrugated or quite smooth, but always with one spherule of smaller diameter
at distal end.

Hydrotheca campanulate, sometimes with slightly everted margin; 0,2-
0,6 mm in depth and 0,2-0,5 mm in marginal diameter; in cross-section fairly
thin and circular to grossly thickened, especially on two opposite sides, and
then oval in cross-section and bilaterally symmetrical. Margin untoothed.
Hydranth with 25-30 tentacles.

Gonotheca borne on hydrorhiza, generally laterally compressed, but some-
times round in cross-section; generally smooth and oval to pear-shaped in
broad view, but often irregularly corrugated; with truncated distal end and wide
operculate aperture; containing one to three (usually two: one large and one
small) eumedusoid gonophores. Gonophore with four pigmented radial canals
bearing irregular branching diverticula along entire length and rarely with four
marginal bulbs and eight statocysts. Male with four band-like gonads extending
full length of radial canals. Female with 30-40 large eggs arranged roughly in
eight longitudinal rows between the diverticula of the radial canals.

Variation and remarks. All South African material appears to belong to one very
variable species, here taken to be C. integra. Attempts to separate two species
on the trophosome have been unsuccessful. Some colonies have spirally annu-
lated pedicels throughout, others have smooth pedicels and others have a
mixture of all types ranging from strongly annulated to quite smooth.

The strength of the perisarc is equally variable; in some colonies it is thin
throughout with hydrothecae which are completely radially symmetrical. In
others the lateral flanges of the hydrorhiza are so extensive that they fuse with
one another to form a mat and the hydrothecae are grossly thickened. The
thickening of the hydrotheca usually terminates just below the margin, and is
always more strongly developed on two opposite sides imparting a bilateral
symmetry and oval cross-section. Thickened colonies of this sort invariably
have a few thin-walled hydrothecae as well.

The gonotheca is similarly variable. Though generally compressed and
irregularly oval in broad view, elongate rounded forms may occur in the same
colony. Many irregularities in shape occur, but never is there a spiral annula-
tion so marked as that illustrated by Hincks (1868) for C. integra.

Medusae of this genus (Agastra) have not been recorded from the plankton
in South Africa and living material has not been seen to release active medusae,
although this may possibly occur under certain conditions. In the laboratory
the gonophores release their sexual products while still within the gonothecae.
In partly spent gonophores the medusoid structure can sometimes be seen and is
best observed by dissecting the gonophore out of the gonotheca. Specimens
with four perradial marginal bulbs bearing vestigial marginal tentacles up to

210 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 69.

Campanularia integra. A-C, hydrothecae with smooth stems, in narrow view, broad view and
t.s. respectively; D and E, hydrotheca with annulated stem in t.s. and broad view respec-
tively; FF, hydrotheca with thin perisarc; G, female gonophore with round section;
H, female gonophore with flat section; J-L, female gonophores dissected from gonothecae,
J immature with radial canals containing pigment, K mature, L partly spent and showing
medusoid structures; M, male gonophore.

Scale in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 211

0,06 mm in length and with eight adradial statocysts have been observed.
When the gonophore is full and mature the marginal structures are usually not
visible and possibly not always present. The radial canals are often clearly
demarcated by the presence of a brown pigment within them.

I have followed Broch (1909, 1918) in synonymizing C. integra and
C. compressa. Both species are known to release degenerate short-lived medusae
at certain seasons. The medusa of C. integra is Agastra mira, which is said to be
distinguished by radial canals with a few diverticuli restricted to the central part
and many small irregularly arranged eggs. The medusa of C. compressa 1s
Agastra rubra, distinguished by radial canals bearing diverticuli along their
entire length and fewer but larger eggs in longitudinal rows. Further observa-
tion is needed to determine whether or not these differences are due to seasonal
variation or sex; if valid the South African material would appear to be closer to
C. compressa.

Distribution. Cosmopolitan. Type locality: Don Mouth, U.K.

Distribution in South Africa. Northern South West Africa and Table Bay to
Mocambique, littoral to 27 m, with a dubious record (Stechow) from 100 m,
very abundant on weed in certain areas. 20/13 (1), 33/18 (1), 34/18 (, s), 34/22
(1, s), 234/23 (d), 33/25 (s), 33/27 (s), 30/30 (1), 29/31 (1, s), 26/32 (1, s)

_ Campanularia laminacarpa Millard, 1966
Fig. 67F-K
Campanularia laminacarpa Millard, 1966a: 472, fig. 12E—-K.

Diagnosis. Colony epizootic on Thyroscyphus aequalis, reaching 2,0 mm in
height. Hydrothecal pedicel smooth or corrugated, with one spherule of smaller
diameter at distal end.

Hydrotheca deep-campanulate, with almost parallel sides, 0,4-0,7 mm in
depth and 0,2-0,3 mm in marginal diameter, depth 14-24 times diameter.
Margin with 10-14 rounded teeth separated by rounded bays of approximately
the same size.

Gonotheca borne on hydrorhiza, large, usually smooth, flattened, with
truncated distal end and wide, operculate, terminal aperture. Male and female
similar, but on different colonies. Female containing a single heteromedusoid
gonophore with numerous small eggs; male containing a single eumedusoid
gonophore with spermatogenic cells arranged in four longitudinal bands and
with indications of four radial canals.

Variation. The gonothecae may have certain irregularities in the contours, but
are always compressed.

Remarks. Sterile colonies of this species cannot be distinguished from C. afri-
cana. Fertile specimens of C. laminacarpa have been found only on Thyroscy-
phus, and the species may be specific to this host. Infertile records from other

212 ANNALS OF THE SOUTH AFRICAN MUSEUM

hosts have been omitted in the distribution below, and infertile records from
Thyroscyphus are given with a query.

Distribution. Endemic to South Africa.

Distribution in South Africa. Certain records: Agulhas Bank from Cape Agulhas
to East London; possibly extending farther west to False Bay and farther north
to Mocambique; 4-110 m and possibly 2-219 m. Type locality: Agulhas Bank,
34°49 'S/20°21,5’E, depth about 91 m. 234/18 (s), 34/20 (s), ?34/21 (s), 35/21
(d), 33/25 (s), ?34/25.(s), 33/26 (Ss), 33/27 (S);, 232/28 (Ss), 229/31 Gs 225/326)
224/35 (s)

Campanularia morgansi Millard, 1957
Fig. 71C-E
Campanularia morgansi Millard, 1957: 195, fig. 6.

Diagnosis. Colony generally epizootic on other hydroids, also found on Pyura
and Perna perna, reaching 2,9 mm in height. Hydrothecal pedicel roughly
corrugated in basal region, with one somewhat flattened spherule at distal end.

Hydrotheca deep-campanulate, with a distinct raised rim just below margin,
0,4-0,7 mm in depth and 0,2-0,4 mm in maximum diameter, depth 13-3 times
diameter. Margin with 8-13 usually bluntly rounded teeth separated by rounded
bays. Hydranth with about 16 tentacles.

Gonotheca borne on hydrorhiza on short annulated pedicel, spindle-
shaped, deeply annulated with 5-9 annulations over ? length, distal region
smooth, with terminal aperture. Male and female similar, containing a single
styloid gonophore, which in the female bears numerous eggs which develop
into planulae in situ.

Variation. The length of the hydrothecal pedicel is variable, and the terminal
spherule is usually, but not always, of smaller diameter than the rest. The raised
rim of the hydrotheca is always distinct and may be strongly thickened. The
marginal teeth are usually rounded, but may also be sharply pointed.

Distribution outside South Africa. Madagascar.
Distribution in South Africa. Lambert’s Bay to Inhaca, in 0-210 m. Type locality:

False Bay, 73 m. 32/18 (s), 33/18 (s), 34/18 (s, d), 34/21 (s), 34/22 (s), 35/22 (d),
33/25 (s), 33/27 (s), 32/28 (s), 32/29 (d), 29/31 (s, d), 28/32 (s), 25/32 (s)

Campanularia pecten Gow & Millard, 1975
Fig. 70A-F
Campanularia ?mollis: Millard, 1966a: 476, fig. 13E-J.
Campanularia pecten Gow & Millard, 1975: 1, fig. 1.
Diagnosis. Colony growing on weeds, reaching 2,7 mm in height. Hydrothecal
pedicel smooth, with thickened perisarc and one spherule of smaller diameter
at distal end, often with regeneration nodes.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 213

Hydrotheca deep-campanulate, 0,5-0,8 mm in depth and 0,2-0,4 mm in
marginal diameter. Margin with 7-10 (usually 9) teeth with bluntly rounded
apices and usually narrower than the bays between them. Perisarc capable of
great thickening, particularly at two opposite sides resulting in an oval cross-
section.

Gonotheca borne on hydrorhiza on short, smooth pedicel, scallop-shaped
and opening like a bivalve shell; lower valve flattened, upper valve thicker
and convex often with concentric ridges on outer surface, containing a single
eumedusoid gonophore. Eumedusoid released for a short free-living life, only
male known, with four radial canals with gonads distributed along their length,
eight statocysts, but no marginal tentacles or hypostome.

Remarks. I have included in this species the infertile material previously ascribed
to C. ?mollis. In this colony the hydrothecae are a little deeper than in the holo-
type and the marginal teeth are sometimes bifurcated at the tip.

Distribution. Endemic to South Africa.

Distribution in South Africa. Cape Peninsula, east and west coasts, littoral. Type
locality: St. James. 33/18 (1), 34/18 (1)

Campanularia roberti Gow & Millard, 1975
Fig. 70G-J
Campanularia roberti Gow & Millard, 1975: 3, fig. 2.
Diagnosis. Colony growing on weeds, reaching 3,5 mm in height. Hydrothecal
pedicel smooth, with thickened perisarc and one spherule of smaller diameter at
distal end, often with regeneration nodes.

Hydrotheca deep-campanulate, 0,6-0,9 mm in depth and 0,3-0,6 mm in
marginal diameter. Margin with 9-11 triangular teeth with bluntly rounded
apices. Perisarc capable of great thickening, particularly at two opposite sides
and more on one side than the other resulting in an asymmetrical shape and an
oval cross-section.

Gonotheca borne on hydrorhiza on short, smooth pedicel, scallop-shaped
and opening like a bivalve shell, recumbent, lower valve flattened, upper valve
thicker and convex with concentric ridges on outer surface, containing a single
gonophore in the form of a fixed sporosac. Gonophore (only female known)
with four branching radial canals and over 30 eggs between the diverticuli,
with no other medusoid characters. Eggs developing into planuli in situ.

Distribution. Endemic to South Africa.

Distribution in South Africa. Cape Peninsula, east and west coats, littoral. Type
locality: Partridge Point. 33/18 (1), 34/18 (1)

Genus Clytia Lamouroux, 1812
Syn. Phialidium Leuckart, 1856.
Diagnosis. Colony usually minute and stolonial, but sometimes branching in

214 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 70.

Campanularia pecten. A and B, hydrothecae; C, spent gonotheca in side view; D, eumedusa
in ventral view, showing, from the centre outwards: opening to subumbrellar cavity,
exumbrellar aperture, ring of statocysts, gonads on radial canals; E and F, gonothecae,
F containing a male gonophore.

Campanularia roberti. G and H, gonothecae, H containing a female gonophore and showing
pigmented radial canals; J, hydrothecae.

Scale in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA PANES

the form of a sympodium. Hydrotheca deep, campanulate or funnel-shaped,
radially symmetrical, usually with toothed margin. Diaphragm present, of
variable thickness but always distinctly demarcated from hydrothecal wall.
Gonotheca producing free medusae. Medusa hemispherical, with normal velum,
hollow marginal tentacles and numerous statocysts.

Type species: Medusa hemisphaerica Linnaeus, 1867
= Sertularia volubilis Ellis & Solander, 1786 (non Linnaeus, 1758)

KEY TO SPECIES

1. Hydrotheca without marginal teeth ae &. ue rr, C. hummelincki
— Hydrotheca with teeth i - te a ce ns Bee a7 aw ee
2. Marginal teeth bilobed a oe a ee ae 3:3 fe C. paulensis
— Marginal teeth single ok ; a ‘eee:
3. Hydrotheca longitudinally striated, diet ett nected on inner cane C. gravieri
— Hydrotheca not striated, marginal teeth not keeled de ae ie Bie fo pee
4. Pedicel corrugated at base, and with one spherule at distal end belo hydrotheca
C. paradoxa
— Pedicel closely annulated at base and at distal end As , Re +
5. Hydrotheca with depth approximately equal to diameter; ae eat heath low and
rounded a C. latitheca
Hydrotheca always deeper than wide: marginal teeth triangular, usually sharp we | O
6. Hydrotheca not more than 1 mm deep, depth about 13-24 times marginal diameter,
mever over 3 times .. : ee .. C. hemisphaerica
— Hydrotheca over 1 mm deep, aout anh eS Afanmneiee re a .. C. warreni

Clytia gravieri (Billard, 1904)
Fig. 71F-H

Campanularia gravieri Billard, 19046: 482, fig. 1.
Obelia striata Clarke, 1907: 9, pls 6-7.
Clytia gravieri: Billard, 1938: 429, figs 1-3. Millard & Bouillon, 1973: 51, fig. 7ZE-G.
Clytia serrata Millard, 1958: 173, fig. 3C, H.
Campanularia (Clytia) gravieri: Vervoort, 1967: 50, fig. 16.
Diagnosis. Colony growing on pteropod shells, weed and other hydroids,
reaching 9 mm in height. Hydrothecal pedicel unbranched and bearing one
hydrotheca only, or branching sympodially to give rise to several alternate
hydrothecae, closely annulated at base, on origin of branches and at distal
end.

Hydrotheca very delicate, deep-campanulate, expanding to margin or
with almost parallel sides, longitudinally striated in distal region for about
one-third of length, 0,4-1,1 mm in depth and 0,12-0,5 mm in marginal diameter,
depth two to three times diameter. Margin with 8-13 sharp, pointed teeth which
correspond to the striations and project inwards as longitudinal ridges, giving
to the cross-section an undulating outline. Diaphragm distinctly demarcated,
separating off a deep basal chamber.

Gonothecae borne on hydrorhiza or thecal pedicel, elongated pear-shaped,
reaching 0,8 mm in length and 0,3 mm in maximum diameter, smooth, truncated
distally, containing a string of medusa-buds. Pedicel short, annulated.

216 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig: 71

Clytia latitheca. A, branching stems; B, hydrotheca.

Campanularia morgansi. C and D, hydrothecae; E, female gonophore.

Clytia gravieri. F, stem; G, hydrotheca; H, gonothecae with medusa-buds.
Scale in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA GALS |

Medusa deep and with four marginal tentacles at liberation, adult medusa
unknown.

Variation. This is one of the few species of Clytia in which the pedicel may
branch repeatedly producing upright stems superficially very like those of
Obelia. The hydrotheca is extremely variable in size.

Distribution outside South Africa. Tropical and subtropical regions of Atlantic,
Indian and Pacific Oceans. Type locality: off Djibouti in the Gulf of Aden.

Distribution in South Africa. On the pteropod Hyaloea (Diacria) trispinosa: west
coast as far south as 31°S, and south-east coast between 24°E and 30°50’S.
On hydroids and other substrata: Port Elizabeth to Mocgambique, 0-110 m.
a/250 (a), 29/31 (Ss), 26/32 (1), 25/32, 23/35 (Ss), 21/35. (Kramp’s records on
pteropods in 1921 not recorded in detail).

Clytia hemisphaerica (Linnaeus, 1767)
Fig. 72A—D

Medusa hemisphaerica Linnaeus, 1767: 1098.
Laomedea gracilis M. Sars, 1851: 138.
Clytia gracilis: Millard, 1957: 196. Millard, 1958: 172, fig. 3B, E, G.
Clytia johnstoni: Ralph, 1957: 820, 823, figs 1h—u, 2, 3a-f. Millard, 1958: 172, fig. 3A, D, F.
Phialidium hemisphaericum: Russell, 1953: 285, figs 172-179, pl. 16 (fig. 1), pl. 17 (fig. 6).
Clytia hemispherica: Rees & Thursfield, 1965: 95.
Clytia hemisphaerica: Millard, 1966a: 478, fig. 14A—F. Leloup, 1974: 14.
Laomedea (Phialidium) pelagica: Vervoort, 1968: 15, fig. 5.
Diagnosis. Colony generally growing on weeds or other hydroids. Hydrothecal
pedicel closely annulated at base and distal end, usually unbranched but some-
times branching sympodially once or twice. Colony reaching a maximum height
of 10 mm.

Hydrotheca deep-campanulate, expanding to margin, 0,3-1,0 mm in depth
and 0,13-0,6 mm in marginal diameter, depth usually 14-24 times diameter.
Margin with 7-15 teeth, which are usually sharply pointed. Diaphragm distinctly
demarcated from thecal wall, separating off a bell-shaped basal chamber.

Gonotheca borne on hydrorhiza or thecal pedicel, elongated, usually
constricted just below truncated distal end, generally smooth but sometimes
annulated, containing about four medusa-buds.

Medusa at liberation deep bell-shaped, with four marginal tentacles. Adult
medusa (not recorded from South Africa) hemispherical, reaching 20 mm in
diameter, with numerous statocysts and up to 32 marginal tentacles.

Variation. When branching occurs the secondary pedicels immediately bend
distally so that their axes are almost parallel to the primary one. The amount of
annulation on the pedicel varies; most have a smooth area in the centre, but
some are annulated throughout and some have scattered patches of annulation.

The hydrotheca is fairly constant in shape though the size is variable. In
general larger hydrothecae occur on the west and south coasts and smaller

218 ANNALS OF THE SOUTH AFRICAN MUSEUM

ones on the east coast. The marginal teeth vary in number and shape. In this
country they are always acute, covering a smaller area than the bays between
them, but the points may be sharp or bluntly rounded and are very often
asymmetrical, leaning to one side. The diaphragm varies in thickness but cannot
be confused with the annular thecal thickening of Campanularia.

Gonothecae are generally smooth, of the ‘C. gracilis’ form, but sometimes
have a few irregular corrugations, and are sometimes completely annulated
as in the ‘C. johnstoni’ form. The annulated gonothecae may be deep with a
wide truncated distal end, or shorter and more nearly oval with a narrower
aperture.

Remarks. Ralph (1957) showed that the gonotheca of C. johnstoni (Alder)
varies from fully annulated to smooth. Thus C. johnstoni becomes a synonym of
C. gracilis (M. Sars) = C. pelagica (van Breemen) = C. hemisphaerica. It may
be noted, however, that in South Africa the ‘johnstoni’ form with fully annulated
gonothecae does not occur south of Inhaca, and that at no time have fully
annulated and smooth gonothecae been found in the same colony.

Distribution. Cosmopolitan. Type locality: “Oceano Belgico’.

Distribution in South Africa. Northern South West Africa to Mocambique.
Common practically all round the coast, though often overlooked because of
the small size, littoral to 150 m. [18/12 (1),] 33/18 C, s), 34/18 (s), 35/19 (s),
35/20 (d), 34/21 (s), 35/21 (d), 34/22 (s, d), 34/23 (s, d), 34/24 (d), 33/25 (s),
34/25 (s), 33/26 (s), 33/27 (s), 32/28 (s), 31/30 (1), 31/29 (s), 29/31 (, s, h), 28/32
(Ciseud) 26/525 (s)he) 82525) S 5 (I) et Ss

Clytia hummelincki (Leloup, 1935)

Fig. 72F—H
Laomedea hummelincki Leloup, 1935: 19, fig. 7.
Clytia hummelincki: Millard, 1966a: 480, fig. 14G-—L.
Diagnosis. Colony growing on the stalked barnacle, Lepas, reaching 4,9 mm in
height. Hydrothecal pedicel unbranched, closely annulated at base and some-
times at scattered intervals above this, with a single flattened segment at distal
end.

Hydrotheca funnel-shaped, with straight sides expanding evenly to margin,
0,3—-0,4 mm in depth and 0,2-0,4 mm in marginal diameter; depth approximately
equal to diameter. Margin untoothed. Diaphragm delicate, usually oblique,
separating off a funnel-shaped basal chamber.

Gonotheca borne on hydrorhiza, elongated, smooth, truncated distally,
containing one or two medusa-buds.

Medusa-bud deep, with four radial canals and four marginal bulbs. Adult
medusa unknown.

Distribution outside South Africa. Isle Bonaire, West Indies, on coral (type
locality).

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 219

Fig. 72.

Clytia hemisphaerica. A, two hydrothecae and a gonotheca; B, hydrotheca; C, gonotheca of
‘gracilis’ form; D, gonotheca of ‘johnstoni’ form.
Clytia paradoxa. E, hydrothecae, redrawn from Stechow (1925a, as Eucalix paradoxus).
Clytia hummelincki. F, hydrothecae and gonotheca; G and H, gonothecae.
Scale in mm/10.

220 ANNALS OF THE SOUTH AFRICAN MUSEUM

Distribution in South Africa. One record only, from Agulhas Bank, on buoy.
34/25 (h)

Clytia latitheca Millard & Bouillon, 1973

Fig. 71A-B

Clytia latitheca Millard & Bouillon, 1973: 55, fig. 7H-L.
Diagnosis. Hydrothecal pedicel either unbranched and bearing a single terminal
hydrotheca, or branching sympodially to form a geniculate erect stem reaching
a maximum height of 6 mm. Stem closely annulated at base, distal end, on
origin of branches and occasionally at other irregular intervals.

Hydrotheca obconical, with straight walls, 0,3-0,6 mm in depth and 0,4—
0,6 mm in marginal diameter, depth approximately equal to diameter. Margin
with 13-14 low rounded teeth. Diaphragm thin, distinct from thecal wall.
Basal chamber deep. Hydranth with about 28 tentacles.

Gonotheca (not reported from South Africa) borne on stem, smooth,
elongated, widening evenly to truncated distal end, containing a string of 3-6
medusa-buds, which are deep and have at least four marginal tentacles at
liberation. Adult medusa unknown.

Variation. This species is very variable in form and is one of the few which may
form an erect branching stem. The branching is very obviously sympodial and
often two branches arise in close succession giving a subdichotomous effect.
Colonies from South Africa are small, but taller ones (reaching 15 mm) occur in
the Seychelles and are occasionally lightly fascicled at the base. The hydrotheca
is variable in size but very characteristic in shape.

Distribution outside South Africa. Seychelles only; type locality: Praslin.
Distribution in South Africa. Inhaca in Mocambique only. 25/32

Clytia paradoxa (Stechow, 1923)

Fig. 72E
Eucalix paradoxus Stechow, 1923b: 104. Stechow, 1925a: 433, fig. 11.

Diagnosis. Colony growing on other hydroids. Hydrothecal pedicel unbranched,
corrugated in basal region, forming one spherule of lesser diameter at distal
end.

Hydrotheca deep-campanulate, with a distinct raised rim just below margin,
0,4 mm in depth and 0,18 mm in marginal diameter, depth about 2% times
diameter. Margin with 9-10 triangular teeth separated by rounded bays.
Diaphragm distinctly demarcated, thin, separating off a campanulate basal
chamber.

Gonothecae unknown.

Remarks. This species is included in the genus Clytia on the basis of the
diaphragm. For the rest its structure is reminiscent of Campanularia, particularly
C. morgansi. It has not been rediscovered since Stechow’s report.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA pips)

Distribution. Endemic to South Africa.

Distribution in South Africa. South coast from 20 to 25°E, in 100 m. Type
locality: 35°27 ‘S/20°56’E, 100 m. 35/20 (d), 34/24 (d)

Clytia paulensis (Vanhoffen, 1910)
Fig. 73A—D

Campanularia paulensis Vanh6ffen, 1910: 298, fig. 19.
Clytia paulensis: Stechow, 1923c: 110, fig. N. Millard, 1966a: 481, fig. 15.
?Clytia ulvae Stechow, 1919b: 47, fig. N. Stechow, 1925a: 428.

Diagnosis. Colony usually growing on other hydroids, reaching 3 mm in height.
Hydrothecal pedicel unbranched or sparsely branched, closely annulated at
base and distal end and sometimes at scattered intervals between.

Hydrotheca deep-campanulate, with almost parallel sides, 0,3-0,7 mm in
depth and 0,13-0,3 mm in marginal diameter; depth two to three times diameter.
Margin with 7-11 bilobed teeth, points narrow and bluntly rounded. Diaphragm
very delicate, separating off a campanulate basal chamber.

Gonotheca borne on hydrorhiza, elongated, smooth, truncated distally
with annulated pedicel, containing one to three medusa-buds.

Medusa-bud with four marginal tentacles. Adult medusa unknown.

Variation. The double marginal teeth are characteristic of the species and
usually very distinct. However, the bays between members of a pair are some-
times nearly as deep as the bays between pairs and the double nature of the
teeth is not so easily seen. The single teeth thus vary from 4 to 3-the length of
the double teeth. Since the margin of the hydrotheca is bowed out between
the teeth the distal end of the hydrotheca often appears to have longitudinal
striations, especially in mounted preparations where the side-walls tend to
crumple.

Distribution outside South Africa. North Atlantic, Mediterranean, California,
Indian Ocean, Antarctic. Type locality: St. Paul, southern Indian Ocean.

Distribution in South Africa. South and east coasts, from Cape Infanta to Inhaca,
0-138 m. 34/20 (s), 34/22 (s), 34/23 (s), 34/24 (d), 33/25 (s), 34/25 (s), 32/28 (s),
29/31 (s, d), 28/32 (s), 26/32 (s)

Clytia warreni Stechow, 1919
Fig. 73E-F

Clytia elongata Warren, 1908: 339, fig. 20.
Clytia warreni Stechow, 1919b: 48.
Diagnosis. Colony epizootic on Thyroscyphus. Hydrothecal pedicel unbranched,
1,3-3,2 mm in length, closely annulated at base and distal end, the terminal
segment being smaller than the rest.

Hydrotheca obconical, expanding to margin, 1,1-1,3 mm in depth and
0,3-0,4 mm in marginal diameter, depth 3-4 times diameter. Margin with about

222 ANNALS OF THE SOUTH AFRICAN MUSEUM

ri
ela

HE
by,

H

Bie: 73:

Clytia paulensis. A-C, hydrothecae; D, gonotheca.

Clytia warreni. E, two gonothecae and a hydrotheca, redrawn from Warren (1908, as
C. elongata); F, hydrotheca, drawn from Warren’s holotype borrowed from the Natal
Museum.

Eulaomedea calceolifera. G, stem; H, hydrotheca and hydranth; J, male gonophore;
K, female gonophore.

Scale in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 223

12 sharp teeth. Diaphragm distinct, separating off a deep-campanulate basal
chamber.

Gonotheca borne on hydrorhiza, elongated and narrowing slightly to
truncated distal end, smooth, containing three or four medusa-buds.

Adult medusa unknown.

Distribution. Endemic to South Africa.

Distribution in South Africa. Type locality and only record: Algoa Bay in 73 m.
33/25 (s)

Genus Eulaomedea Broch, 1909

Diagnosis. An upright stem present, which may be fascicled or unfascicled,
branched or unbranched. Stem divided into regular internodes bearing alternate
hydrothecae. Hydrotheca campanulate, radially symmetrical. Diaphragm
distinctly demarcated from thecal wall. Gonothecae containing gonophores in
the form of fixed sporosacs or degenerate medusae which release their sexual
products within the gonothecae.

Type species: Laomedea flexuosa Alder, 1856.
One species only from South Africa.

Eulaomedea calceolifera (Hincks, 1871)
Fig. 73G—-K

Campanularia calceolifera Hincks, 1871: 78, pl. 6. Nutting, 1915: 49, pl. 9 (figs 2-4).
Laomedea angulata: Millard, 1959b: 248.
Diagnosis. Stem unfascicled, flexuous, unbranched or weakly branched, reaching
23 mm in height, geniculate, bearing alternate hydrothecae. Internodes annu-
lated on proximal end, slender, each with a distal apophysis alternately on the
right and the left, which bears a hydrotheca and/or a branch. Branches similar
to stem. Hydrothecal pedicel annulated throughout or with a smooth area in
centre, generally longer than hydrotheca.

Hydrotheca campanulate, 0,4-0,6 mm in depth and 0,2—0,4 mm in marginal
diameter. Margin untoothed, usually slightly everted. Diaphragm straight.

Gonothecae arising in axils of thecal pedicels or branches, with annulated
pedicels, male and female on separate colonies. Female gonotheca smooth,
slipper-shaped, widening gradually from pedicel to distal end, which is
obliquely truncated, the abcauline edge curling over to form a tube directed
distally into the cavity; containing about 10 heteromedusoid gonophores, each
with one egg; eggs developing into planulae within the gonotheca. Male gono-
theca smooth, elongated, spindle-shaped, with small inturned terminal aperture,
containing about seven styloid gonophores in one row, one upon the other.

Distribution outside South Africa. North Atlantic from coast of America to
Europe, Mediterranean. Type locality: Salcombe Bay, U.K.

224 ANNALS OF THE SOUTH AFRICAN MUSEUM

Distribution in South Africa. In Cape Town docks on ships’ hulls. An infertile
record from Simon’s Bay, 70 m (Stechow 1925a). 33/18 (h), 34/18 (s)

Genus Gonothyraea Allman, 1864

Diagnosis. An upright, branching stem present, which may be fascicled or
unfascicled. Stem divided into regular internodes bearing alternate hydrothecae.
Hydrotheca campanulate, radially symmetrical. Diaphragm distinctly demar-
cated from thecal wall. Gonophores forming degenerate medusae (meconidia)
which are extruded from the gonothecae into acrocysts, but remain attached and
release the sexual products in position. Meconidium with marginal tentacles,
but no mouth or sense organs.

Type species: Laomedea loveni Allman, 1859.

One species only from South Africa.

Gonothyraea loveni (Allman, 1859)

Fig. 74A—F
Laomedea Loveni Allman, 1859: 138.
Gonothyraea Lovéni: Hincks, 1868: 180, pl. 25 (fig. 2). Allman, 1871: 55, fig. 28.
Laomedea lovéni: Millard, 19595: 249.
Diagnosis. Stem unfascicled, flexuous, richly branched, reaching 40 mm in
height, straight or weakly geniculate, bearing alternate hydrothecae and
branches. Internodes annulated on proximal end, slender, each with a distal
apophysis alternately on the right and the left, which bears a hydrotheca and/or
a branch. Branches similar to stem. Hydrothecal pedicel annulated throughout,
shorter than hydrotheca.

Hydrotheca deep-campanulate, very delicate, 0,4-0,6 mm in depth and
0,18-0,4 mm in marginal diameter. Margin with about 10 truncated teeth
separated by rounded bays. Diaphragm thin, straight. Hydranth with 19-33
tentacles held alternately elevated and depressed.

Gonothecae arising in axils of thecal pedicels or branches singly or in pairs,
smooth, elongated, widening gradually to truncated distal end, containing 4-5
(rarely up to 8) eumedusoid gonophores in a single row, one upon the other.
Gonophores extruded through aperture as meconidia but remaining in cyto-
plasmic continuity with blastostyle. Meconidium with four radial canals, a
circular canal and a ring of small marginal tentacles, but no mouth or sense
organs. Male with about five marginal tentacles and releasing the sexual products
in situ. Female with about eight marginal tentacles and 3-5 eggs, which are
fertilized and develop into planulae in situ.

Colour: coenosare creamy white throughout, tentacles transparent.

Distribution outside South Africa. Arctic and North Atlantic, from America
to Europe, Morocco, Mediterranean, New Zealand, Tasmania. Probably spread
to the southern hemisphere by ships. Type locality: Great Britain.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 225

. rH it
\\ ay | :
Cece di We 77
Ue atin 7

OL

"ae
id ak
MTT ATTICS

Fig. 74.

Gonothyraea loveni. A, stem with female gonophores; B, hydrotheca; C and D, female and
male gonophores releasing meconidia; E, female meconidium with planulae; F, empty
male meconidium.

Obelia sp., medusae. G, newly liberated; H, in a typical swimming position; J, the largest
specimen seen; K, edge of bell showing tentacle roots, circular canal and statocyst.

Scale in mm/10.

226 ANNALS OF THE SOUTH AFRICAN MUSEUM

Distribution in South Africa. In Cape Town docks only, on ships’ hulls,
experimental submerged plates, pylons and cables. 33/18 (s, h)

Genus Obelia Péron & Lesueur, 1809

Diagnosis. An upright stem present, which may be fascicled or unfascicled,
branched or unbranched. Stem divided into regular internodes bearing alternate
hydrothecae. Hydrotheca campanulate, radially symmetrical, with toothed or
untoothed margin. Diaphragm distinctly demarcated from thecal wall. Gono-
thecae releasing free medusae. Medusa shallow and saucer-shaped, with rudi-
mentary velum, numerous solid marginal tentacles and eight statocysts, each
with one concretion.

Type species: Sertularia geniculata Linnaeus, 1758.

Remarks on medusae (Fig. 74G—-K). The medusae of the various species of
Obelia cannot as yet be distinguished from one another. Obelia medusae occur
commonly in the plankton round the South African coast, and are easily recog-
nized by their characteristic rapid pulsation and shallow bell, which often
‘turns inside out’ during swimming. The smallest ones observed, which have
presumably just escaped from the gonothecae, are | mm in diameter and have 16
marginal tentacles. The largest ones are 4 mm in diameter and have about 140
marginal tentacles. The gonads are round and borne on the centre of the radial
canals.
Colour: gonads and tentacle-bases straw-coloured, the rest transparent.

KEY TO SPECIES

1. Hydrothecal margin toothed a: ate es fs os ee is eg 2
— Hydrothecal margin untoothed a s oe wa ee one A sa) Utes
2. Marginal teeth bilobed ae a aN Af a Pe O. bicuspidata
— Marginal teeth single, low and rounded a eng , Aye O. dichotoma
3. Stem strongly geniculate, internodes with niononneed eneareal thickenings on

alternate sides O. geniculata
— Stem seldom obviously geniculate, internodes without perisarcall thicken: O. dichotoma

Obelia bicuspidata Clarke, 1875
Fig. 75C-E

Obelia bicuspidata Clarke, 1875: 58, pl. 9 (fig. 1). Millard, 19595: 249. Mammen, 1965a:

11, figs 37-38.

Laomedea bicuspidata: Vervoort, 1946a: 298, fig. 132. Vervoort, 1968: 19, fig. 7.

Diagnosis. Stem fascicled or unfascicled, branched or unbranched, reaching
9 mm in height, geniculate in younger regions only, bearing alternate hydro-
thecae. Internodes slender, with thin perisarc, with three or more close annula-
tions at proximal end, bearing a hydrotheca on a short apophysis at distal end.
Branches when present, arising next to a hydrotheca, similar to stem. Hydro-
thecal pedicels of variable length, annulated throughout or with smooth area in
centre.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 227

Hydrotheca deep-campanulate, polygonal in section, 0,3-1,1 mm in depth
and 0,18-0,5 mm in marginal diameter, depth 13-34 times diameter. Margin
with 8-12 teeth, each of which is bilobed, terminating in two slender, keeled
spines. Diaphragm delicate, straight or slightly oblique.

Gonothecae arising in axils of hydrothecal pedicels, smooth, elongated,
widening to broad distal end, with terminal aperture but no neck. Pedicel
annulated.

Variation. The known South African material is sparsely branched with unfas-
cicled stems. More luxurious material might be expected to have fascicled stems
and more prolific branching. Variation occurs in the origin of the branches and
hydrothecae, and the latter may arise in pairs.

The size of the bays between members of a pair of marginal teeth varies,
and may be almost as deep as the bays between the double teeth or quite shallow.
Some hydrothecae are obviously longitudinally striated, others not at all.

Distribution. Cosmopolitan in tropical and temperate waters. Type locality:
Long Island Sound, 5-9 m.

Distribution in South Africa. Table Bay, and the east coast from Durban to
Inhaca; on ships’ hulls, hermit shells and weed. 33/18 (h), 29/31 (s), 28/32 (s),
2/32 S), 25/32

Obelia dichotoma (Linnaeus, 1758)
Fig. 75F-J

Sertularia dichotoma Linnaeus, 1758: 812.
Obelia dichotoma: Hincks, 1868: 156, pl. 28 (fig. la—d). Millard, 1966a: 483.
Obelia dubia: Vanhoffen, 1910: 307, fig. 27.
Laomedea dichotoma: Vervoort, 1946a: 292, fig. 128.
Diagnosis. Stem unfascicled, branched or unbranched, reaching 90 mm in height
but usually much less, straight or geniculate, bearing alternate hydrothecae.
Internodes annulated on proximal end, slender, bearing a hydrotheca on a short
apophysis at distal end. Branches alternate or subdichotomous, usually arising
from the same apophysis as the hydrotheca, similar to stem in structure. Hydro-
thecal pedicels annulated throughout or with a smooth area in centre.

Hydrotheca campanulate, very delicate, round or polyhedral in section,
0,3—-0,6 mm in depth and 0,2-0,5 mm in marginal diameter, with depth exceeding
width. Margin untoothed or with about 12 low, rounded ‘teeth’. Diaphragm
thin, straight or oblique.

Gonothecae arising in axils of thecal pedicels and occasionally from
hydrorhiza, smooth or roughly corrugated, elongated pear-shaped, with terminal
aperture on a short tubular neck. Pedicel short, annulated.

Variation. The branching is typically alternate, with longer branches near the
base of the colony and progressively shorter ones towards the tip, but extra
long branches may arise at irregular intervals, giving a pseudodichotomous

228 ANNALS OF THE SOUTH AFRICAN MUSEUM

A,D,G.H

Ul

a

=
—)
Be,
p

oe
(00

Fign 73:

Obelia geniculata. A, hydrotheca and hydranth; B, stem with gonothecae containing
medusa-buds.
Obelia bicuspidata. C, stem; D, hydrotheca; E, gonotheca.
Obelia dichotoma. F, stem; G, hydrotheca with untoothed margin; H, hydrotheca with
toothed margin; J, gonotheca containing medusa-buds.
Scale in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 229

appearance. Normally a branch and a hydrothecal pedicel arise together from
the same apophysis, but branches may replace hydrothecae or may arise in
pairs. Two hydrothecae may arise from the same apophysis. Hydrothecal
pedicels are variable in length and may be longer or shorter than the hydrothecae.
The geniculate appearance of some stems is the result of curvature within: the
internodes rather than at the nodes.

The margin of the hydrotheca is usually very thin and delicate with no
marginal teeth. Sometimes very low undulations may be seen, and rarely
distinct rounded teeth with indications of longitudinal striations between them.
The latter form is characteristic of O. dubia, which is here considered to be a
synonym.

The gonothecae are usually smooth or may have irregular transverse corru-
gations (typical of O. dubia).

Colonies are commonly epizootic on other hydroids and algae, and have
also been found on Squalus acutipinnis, Aulacomya magellanica, Lepas sp.
and Caretta caretta. It is very common in dock areas on pylons and ships’
hulls.

Distribution. Cosmopolitan. Type locality: south-west coast of England.

Distribution in South Africa. All round the coast, littoral to 100 m. 28/16 (s),
31/18 (1), 32/18 (s), 33/18 (s, h), 34/18 (1, s), 34/20 (s), 34/21 (s), 34/22 (s), 34/23
eisrrcl)53/25 (Ss), 29/310 hy, 26/32 (I), 25/32, 23/35 (l), 21/35

Obelia geniculata (Linnaeus, 1758)
Fig. 75A-B

Sertularia geniculata Linnaeus, 1758: 812.

Laomedea geniculata: Vervoort, 1946a: 294, figs 129-131. Leloup, 1974: 19, fig. 16.
Diagnosis. Colony usually growing on weed, particularly laminarians. Stem
unfascicled, unbranched (in South African material), reaching 22 mm, geniculate,
bearing alternate hydrothecae. Internodes not annulated or with one or two
annulations immediately above node, bearing a hydrotheca on a projecting
shoulder at distal end, with perisarc grossly thickened below the shoulder on
the side bearing the hydrotheca. Hydrothecal pedicels completely annulated,
usually shorter than the hydrotheca.

Hydrotheca campanulate, round in section, 0,16-0,3 mm in depth and
0,15-0,4 mm in marginal diameter, depth approximately equal to diameter.
Margin untoothed. Diaphragm generally thick and triangular.

Gonothecae arising in axils of thecal pedicels and from hydrorhiza, smooth,
elongated pear-shaped, with terminal aperture on a short, tubular neck. Pedicel
short, of one or two segments.

Colour: hydranths transparent.

Variation. The South African material generally has very pronounced perisarcal
thickenings in the stem internodes, and the walls of the hydrothecae are generally

230 ANNALS OF THE SOUTH AFRICAN MUSEUM

thickened as well, especially in the region of the diaphragm. The hydrotheca is
in general more stoutly built than in O. dichotoma. The diaphragm may also be
thick, resembling superficially that of Campanularia, but there is always a distinct
line separating it from the wall of the hydrotheca. The diaphragm may be
straight or oblique, in the latter case imposing a certain asymmetry on the
hydrotheca. This may be enhanced by unequally thickened thecal walls, the
abcauline side tending to be thicker than the adcauline. The length of the thecal
pedicel varies and it may have 1-8 segments. The gonothecae may arise in pairs.

Distribution. Cosmopolitan. Type locality: U.K.

Distribution in South Africa. Lideritz Bay to Cape Infanta, littoral to 80 m,
Inhaca (littoral) and on ships’ hulls, especially common on laminarians, also on
Jasus lalandii. 26/15 (1, s), 32/18 (s), 33/17 (s), 33/18 (1, s, h), 34/18 (1, s), 35/19
(s), 34/20 (s), 26/32 (1, s), 25/32

Family Syntheciidae

Diagnosis. Thecate hydroids with tubular, bilaterally symmetrical hydrothecae,
into which the hydranths can be completely withdrawn. Hydrotheca sessile,
without operculum, with untoothed margin, with a definite floor perforated by a
hydropore. Hydranth with conical hypostome and one circle of filiform
tentacles. Nematophores absent. Gonophores in the form of fixed sporosacs.

Introduction. Members of the Syntheciidae have erect stems which may be small
and unbranched, or may bear pinnately arranged hydrocladia. Both stem and
hydrocladia bear hydrothecae. The species are seldom large, and many are
minute. The stem is usually unfascicled, though fascicled in a few larger species.
Stolonization is common, particularly in the genus Synthecium, where the tips
of the stems or hydrocladia develop stolons which reunite with other parts of the
colony often resulting in a tangled, bushy network.

The arrangement of the hydrothecae is used as a basis for generic diagnosis.
They may be alternate, in opposite pairs, or in verticils.

The structure of the hydrotheca is very similar to that in the Sertularidae,
and undoubtedly the two families are very closely related. The Syntheciidae can
be distinguished by the circular, untoothed margin to the hydrotheca and by the
absence of an operculum.

The hydrotheca is sessile and seated directly on an apophysis of the stem.
Its adcauline wall is at least partly adnate to the stem, and then usually bends
away from it. There is no diaphragm in the strict sense of the term, but the floor
of the hydrotheca is well defined and perforated in the centre by a small hydro-
pore. By this feature the family can be distinguished from the Lafoeidae. In
the stronger species the base of the adcauline wall usually extends below the
level of the floor where it forms a thickened boss of perisarc. Broch (1918)
states that the hydrotheca is lined with an ectodermal lamella which is con-
tinuous with the base of the hydranth, but this has not been verified for all

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA Da

species. Broch also states that the hydranth usually possesses a BLIND CAECUM
or bulge on the abcauline side where the endodermal epithelium is low and
without digestive elements. In the South African species this caecum has been
observed only in Synthecium hians.

The gonothecae usually spring from within the hydrothecae but may arise
from the stem just below them. Stechow (1923c) used this feature to distinguish
Synthecium from Hincksella, but Billard (1925a) has shown that this is not a
good diagnostic character. When the gonothecae arise below the hydrothecae
they usually emerge through special thin areas of perisarc in this position which
have the appearance of FENESTRAE and are clearly visible in the infertile colony.

KEY TO GENERA
[Genera not represented in South Africa are bracketed]

1. Hydrothecae alternate on stem and branches, forming two longitudinal rows
Hincksella p. 231
— Hydrothecae in opposite pairs or verticils on stem and branches br 4 ery

2. Pairs of hydrothecae always in the same plane and forming two longitudinal rows
Synthecium p. 235

— Hydrothecae in pairs or verticils, the members of one group alternating with those

of the next and forming double the number of longitudinal rows [| Staurotheca]

Genus Hincksella Billard, 1918

Diagnosis. Colony with erect stem, which may or may not bear alternate
hydrocladia. Stem and hydrocladia, when present, bearing alternate hydro-
thecae. Gonothecae springing from within hydrothecae or from stem or hydro-
rhiza.

Type species: Hincksella sibogae Billard, 1918.

KEY TO SPECIES

1. Stem unsegmented, bearing alternate, unsegmented hydrocladia .. H. echinocarpa
— Stem segmented, without hydrocladia ue ae = un a oe Rs pe PA

2. Hydrotheca adnate for about half adcauline length. Stem corrugated near nodes
H. corrugata

— Hydrotheca adnate for about one quarter adcauline length. Stem not corrugated
H. cylindrica pusilla

Hincksella corrugata Millard, 1958

Fig. 76A
Hincksella corrugata Millard, 1958: 181, fig. 5.

Diagnosis. Stem reaching 10 mm, unfascicled, unbranched, slightly zigzag,
divided by oblique nodes into internodes, each bearing a hydrotheca. Perisarc
corrugated in basal region and in neighbourhood of nodes. Hydrothecae
alternate, the two rows in one plane or displaced towards anterior surface.
Hydrotheca adnate for about half adcauline length, tubular, bent slightly

232 ANNALS OF THE SOUTH AFRICAN MUSEUM

outwards, smooth or faintly corrugated, 0,6-0,7 mm in length and 0,4-0,5 mm
in marginal diameter. Margin very slightly everted.
Gonothecae unknown.

Variation. In the few colonies known there is variation in internode length and
in the amount of corrugation on the stem and on the hydrothecal walls.

Remarks. This species may eventually prove to be a variety of H. cylindrica.
Distribution outside South Africa. Madagascar.

Distribution in South Africa. Natal to Mogambique, 10-46 m, rare. Type
locality: Natal. 30/30 (s), 26/32 (s), 21/35

Hincksella cylindrica (Bale, 1888)

Sertularella cylindrica Bale, 1888: 765, pl. 16 (fig. 7).

Synthecium cylindricum: Nutting, 1904: 136, pl. 41 (fig. 7). Fraser, 1944: 234, pl. 48 (fig. 216).
Hincksella cylindrica: Blackburn, 1937: 173, fig. 2. Vervoort, 1959: 245, figs 18-19a.
Diagnosis. Stem unfascicled, unbranched or irregularly branched, divided by
oblique nodes into internodes, each bearing a hydrotheca. Internodes without
corrugations. Hydrothecae alternate, the two rows in one plane.

Hydrotheca thin-walled, adnate for 4 to nearly 4 adcauline height, tubular,
curved slightly outwards, smooth. Margin very slightly everted.

Gonotheca arising from within hydrotheca, from stem below hydrotheca
or from hydrorhiza, sessile or with pedicel of variable length. Male elongated
and rather irregular in outline, female spherical.

Only a subspecies of this species from South Africa.

Hincksella cylindrica pusilla Ritchie, 1910
Fig. 76B-E

Sertularella cylindrica var. pusilla Ritchie, 1910b: 817, pl. 77 (fig. 9).
Hincksella cylindrica var. pusilla: Vervoort, 1968: 28, fig. 12.
Hincksella cylindrica pusilla: Millard, 1964: 22, fig. 6A—D.
Cyclonia pusilla: Hirohito, 1969: 16, fig: 12.
Diagnosis. A dwarf form differing from the nominate subspecies in the following
characters:

Stem never branched, shorter (reaching 7 mm) and with more slender
internodes (diameter under 0,1 mm).

Hydrotheca adnate for about 4 adcauline height, more slender and more
definitely bent outwards near base, 0,5-0,6 mm in depth and 0,14-0,17 mm in
marginal diameter.

Variation and remarks. The most obvious variation in the single sterile colony
found is in the length of the internodes, which is very variable. The hydrothecae
are so delicate that they crumple easily and a perfect one is seldom seen. There
appears to be a certain amount of variation in shape, some being obviously

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 233

Fig. 76.

Hincksella corrugata. A, stem.
Hincksella cylindrica pusilla. B-D, hydrothecae; E, part of stem with characteristically
crumpled hydrothecae.
Hincksella echinocarpa. F, stem; G, origin of hydrocladium.
Scale: F in cm, the rest in mm/10.

234 ANNALS OF THE SOUTH AFRICAN MUSEUM

tubular and of equal diameter throughout, and others expanding slightly towards
the margin.

Hirohito (1969) has for the first time described and illustrated the gono-
phores of subspecies pusilla. These show sexual dimorphism and arise either from
within a hydrotheca or direct from the hydrorhiza. They are similar to those of
the nominate subspecies and explain the apparent discrepancies in the literature,
those of Torrey 1902 (repeated in Nutting 1904) being male, and those of Fraser
(1944) and Blackburn (1937) apparently being female.

Distribution outside South Africa (of subspecies pusilla). Mergui Archipelago
(type locality), East Indies, Japan, tropical West Africa, West Indies, Caribbean.

Distribution in South Africa. One record only, from the Agulhas Bank in 84 m.
33/28 (s) |
Hincksella echinocarpa (Allman, 1888)

Fig. 76F—G
Sertularia echinocarpa Allman, 1888: 57, pl. 28 (figs 1—-1a).
Hincksella echinocarpa: Millard, 1967: 176} fig. 3A—C.
Diagnosis. Stem reaching a height of 90 mm; fascicled, though flexuous and
unable to support itself out of fluid: unbranched; bearing alternate hydrothecae
and alternate, flexuous hydrocladia which generally arise below every third
hydrotheca; unsegmented. The two rows of hydrothecae and hydrocladia in
one plane.

Hydrocladium separated from stem apophysis by oblique node, unfascicled,
unsegmented, reaching a maximum length of 40 mm, bearing alternate
hydrothecae.

Hydrotheca adnate for less than half adcauline height, tubular, with free
part straight or curved slightly outwards, smooth, 1,2—1,3 mm in total adcauline
length (adnate plus free part) and 0,3-0,5 mm in marginal diameter.

Gonothecae (not reported in South Africa) borne below hydrothecae,
where thin oval areas occur in the perisarc. ‘Pyriform, thickly set with hollow,
blunt, spine-like outgrowths of their chitinous perisarc’ (Allman).

Variation. As in many deep-water species the hydrorhiza forms a branching,
fibrous rootstock for penetration of a muddy substratum.

The stem is lax and geniculate for the most part, though it may be straight
in the distal unfascicled portion. Variations occur in the distance between
consecutive hydrocladia, with corresponding variations in the number of inter-
mediate hydrothecae. Rarely a transverse node occurs in the hydrocladium
immediately above a hydrotheca; this appears to be the result of regeneration
rather than a normal node. Rarely, too, the hydrocladium may rebranch.
Allman reports a height of 160 mm in material from Kerguelen.

Distribution outside South Africa. Only record and type locality: Kerguelen
Island in southern Indian Ocean.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 235

Distribution in South Africa. Off the coast of Mocambique in | 610-2 200 m.
24/36 (a), 23/37 (a)

Genus Synthecium Allman, 1872

Diagnosis. Colony with erect stem usually (always, in South African species)
bearing hydrocladia in opposite pairs. Stem and hydrocladia bearing hydro-
thecae in opposite pairs, the pairs always in the same plane and thus forming
two longitudinal rows. Gonothecae usually dioecious, springing from within
hydrothecae.

Type species: Synthecium elegans Allman, 1872.

KEY TO SPECIES

1. Hydrotheca widening strongly to margin .. at bas ie = S. hians
— Hydrotheca tubular, not widening markedly to margin ae ; Ae perme v2,
2. Hydrotheca with one adcauline internal tooth in at least some Bydvothecds S. dentigerum
— Hydrotheca never with internal tooth “3 ne i Ae a .. 3S. elegans

Synthecium dentigerum Jarvis, 1922
Fig. 77E-H
Synthecium dentigerum Jarvis, 1922: 344, pl. 25 (fig. 15). Totton, 1930: 172. Millard, 1964:

24, fig. 6E-J. Watson, 1973: 169, figs 17-18.

Diagnosis. Stem reaching a height of 40 mm; unfascicled; normally unbranched,
but bearing pinnately arranged hydrocladia; divided by straight nodes into
internodes, which bear a variable number of hydrocladia and hydrothecae.
The two rows of hydrocladia in the same plane.

Hydrocladium making a wide angle with stem, with straight nodes and one
pair of hydrothecae to each internode. Hydrothecae opposite, though
subopposite in proximal region.

Hydrotheca adnate for over half adcauline length, tubular, curved out-
wards, 0,5—0,6 mm in total adcauline length (adnate plus free part) and 0,16-
0,2 mm in marginal diameter. With one large internal tooth on adcauline side
in at least some hydrothecae of colony.

Gonotheca arising from within hydrotheca, pentagonal or triangular in
section, tapering distally, annulated, with 5-6 transverse folds on each flat
side, with small circular distal opening.

Variation. Branching occasionally occurs, the branches replacing hydrocladia.
The nodes of the stem may be indistinct in certain regions. On the internodes
the following are the most common arrangements:
(i) two pairs of hydrothecae, with a pair of hydrocladia between them,

(ii) one pair of hydrocladia followed by a pair of hydrothecae,

(iii) one pair of hydrothecae only.

Stolonization is common.

The presence of an internal hydrothecal tooth is a variable character.

236 ANNALS OF THE SOUTH AFRICAN MUSEUM

When present it is usually large and very obvious, but it may be present in only
a few hydrothecae of a colony, and is often present in one member of a pair
and absent in the other. Occasional hydrothecae also possess an internal peg-
like thickening of perisarc in the centre of the abcauline wall.

The typical pentagonal gonothecae sometimes have two of the angles
smoothed out giving the appearance of a rather flattened triangle. The annu-
lations tend to fade out on the angles, though occasionally continue right over
them. There is never a definite zigzag line as in S. elegans.

Distribution outside South Africa. Tropical Indian Ocean: Chagos (type locality)
and Seychelles. South Australia.

Distribution in South Africa. Sparsely distributed on the Agulhas Bank in 18-—
46 m. 34/19 (s), 34/21 (s), 33/25 (s), 34/25 (s), 33/26 (s), 33/27 (s)

Synthecium ?elegans Allman, 1872
Fig. 77A—B

Synthecium elegans Allman, 1872: 229, fig. Allman, 1876: 266, pl. 15 (figs 1-3). ?Millard,

1957: 203, fig. 9D.
Synthecium ramosum Allman, 1886: 137, pl. 12 (figs 3-4).
Synthecium subventricosum Bale, 1914a: 5, pl. 1 (figs 3-5).
pt eee forma subventricosum: Ralph 1958: 347, fig. 16a—h. Watson, 1973: 167,
nace ia forma elegans: Ralph, 1958: 349, fig. 17a-e.
Diagnosis. Stem reaching a height of 20 mm; unfascicled; bearing pinnately
arranged hydrocladia; divided by straight nodes into internodes, each of which
normally bears two pairs of hydrothecae and one pair of hydrocladia arising
between them. The two rows of hydrocladia in the same plane.

Hydrocladium with regular nodes, each internode bearing a pair of hydro-
thecae. Hydrothecae opposite, though subopposite in proximal regions.

Hydrotheca adnate for over 3? height, tubular, curved outwards, 0,5—1,0
mm in total adcauline length (adnate plus free part) and 0,2-0,4 mm in marginal
diameter.

Gonotheca (not reported from South Africa) arising from within hydro-
theca, ovate, with prominent transverse ridges connected on two sides by zig-
zag longitudinal ridges, with distal aperture on short tubular neck.

Variation. South African material is unbranched, but Allman (1886) reports
branching specimens from New Zealand reaching a height of 150 mm. The
branches replace hydrocladia. Simple stems resembling solitary hydrocladia may
also occur.

The arrangement on the stem internodes is very variable, particularly in
the older regions, and apart from the normal arrangement each internode may
bear

(i) one pair of hydrocladia only,
(ii) one pair of hydrothecae only,
(ili) one pair of hydrocladia followed by one pair of hydrothecae.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 237

XY
+
E
a é ~~
B.G H

Fig. 77.

Synthecium elegans. A, hydrocladium; B, stem.
Synthecium hians. C, stem and hydrocladia from young part of colony; D, hydrocladium.
Synthecium dentigerum. E, hydrocladium; F, gonotheca in side view; G, a branching stem;
H, gonotheca viewed from above, X marks adcauline side.
Scale: B and G in cm, C in mm, the rest in mm/10.

238 ANNALS OF THE SOUTH AFRICAN MUSEUM

The hydrocladia may have indistinct nodes, and may occasionally be
branched. Stolonization is common.

Remarks. The identification of this species must remain doubtful until the
discovery of gonophores in this country, for the trophosome is similar to that of
several other related species. The same applies to records of S. elegans outside
the country. These are marked with a query in the distribution. Material from
the Seychelles has recently been definitely identified as S. patulum (Busk) by
Millard & Bouillon (1973).

Distribution outside South Africa. New Zealand (type locality), Australia, East
Indies, 7Madagascar, ?East Africa.

Distribution in South Africa. Sparsely distributed from False Bay, Cape, to
Mocambique in 16-100 m. 34/18 (s), 35/19 (s), 34/22 (s), 34/24 (d), 30/30 (s),
29/31 (s), 28/32 (s), 24/34 (s), 21/35

Synthecium hians Millard, 1957
Fig. 77C—D
Synthecium hians Millard, 1957: 204, fig. 9A—-C.

Diagnosis. Stem reaching a height of about 60 mm; unfascicled; normally
unbranched, but bearing pinnately arranged hydrocladia; divided by straight
nodes into internodes, each of which normally bears three pairs of equally
spaced hydrothecae and one pair of hydrocladia arising below the second pair
of hydrothecae. The two rows of hydrocladia in the same plane.

Hydrocladium with irregular nodes; bearing pairs of opposite hydrothecae
which may be subopposite in proximal regions.

Hydrotheca adnate for almost entire length, narrow at base, widening
strongly to margin, bent very slightly outwards, 0,3-0,4 mm in total adcauline
length (adnate plus free part) and 0,2-0,3 mm in marginal diameter. Margin
everted. No internal teeth. Hydranth with abcauline caecum.

Gonotheca unknown.

Variation. In rich colonies the hydrorhizal tubes may rise up from the surface in
a tangled bundle simulating a fascicled stem, the individual tubes anastomosing
with one another and with the bases of the stems.

The nodes of the stem may be indistinct in the older regions. The arrange-
ment on the stem internodes sometimes varies and the following aberrations
may occur:

(i) two pairs of hydrothecae per internode, with a pair of hydrocladia arising
below the second pair,

(ii) one pair of hydrothecae only per internode.

In rare cases a normal hydrocladium may be replaced by a branch.

The young hydrocladium commences with an unpaired abcauline

hydrotheca, which is followed by subopposite pairs gradually changing to

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 239

opposite. In older parts of the colony (possibly due to regeneration) the hydro-
cladium is separated from the stem by a transverse node, after which opposite
or nearly opposite pairs of hydrothecae start immediately. The angle between
the hydrocladium and the stem is large in the older part of the colony (almost a
right angle) but tends to become more acute in the younger region.

The hydrothecae are very constant in shape though on older stems the
delicate distal parts have become eroded leaving low cup-shaped scars.

Distribution. Endemic to South Africa. Type locality: False Bay, Cape.

Distribution in South Africa. Fairly common round the coast from False Bay
in the Cape to Mocambique in 18-219 m. 34/18 (s), 34/20 (s), 34/21 (s), 34/22
(s), 34/23 (d), 34/25 (s), 33/26 (s), 33/27 (s), 33/28 (s), 32/28 (s), 30/30 (s), 29/31
(s, d), 29/32 (s), 28/32 (s, d), 24/35 (d)

Family Sertulariidae

Diagnosis. Hydrothecae borne on stem and hydrocladia in two or more longi-
tudinal rows. Hydrotheca stalked or sessile and, if sessile, adnate to a varying
degree, bilaterally symmetrical, usually with a toothed margin and a hinged
operculum of one or more valves, with a diaphragm in stalked species and a
definite floor perforated by an asymmetrical hydropore in sessile species.
Hydranth with a single circle of filiform tentacles and a conical hypostome;
endoderm differentiated into an aboral and an oral region, the former some-
times forming an abcauline caecum on contraction. Nematothecae absent.
Gonophores in the form of fixed sporosacs.

Introduction. The Sertulariidae is one of the largest families of Hydroida and is
easily recognized by its bilaterally symmetrical and operculate hydrothecae.

In only one genus (Calamphora) is the colony stolonial, in all others the
hydrothecae are borne on an erect stem.

The stem may be fascicled or unfascicled, branched or unbranched. Charac-
teristically branches arise in one plane and are opposite or alternate, often
rebranching in the same way, though species with spiral or whorled branches
also occur. In some cases the branches differ from the main stem in some way
(e.g. in thickness, arrangement of hydrothecae) and the term hydrocladia is
appropriate. In others, and particularly in the small, irregularly branched
species, the branches are similar in structure to the stem, but for the sake of
uniformity the term hydrocladia is used here too for the final ramifications of
a pinnate stem.

The stem is termed STIFF when it is able to support itself out of fluid and
FLEXUOUS when it cannot. Stiff stems give rise to bushy colonies, and flexuous
stems to long, straggling colonies. Stolonization from the ends of the stem or
hydrocladia may occur in any species and is particularly common in
Symplectoscyphus and Dictyocladium. It gives the colony a tangled and matted
appearance.

240 ANNALS OF THE SOUTH AFRICAN MUSEUM

Stem and branches are typically segmented, with transverse or oblique
nodes. Each internode may bear one or more hydrothecae and may contain
internodal septa. In certain species of Sertularia HINGE-JOINTS occur, which
allow for movement and provide a point of easy rupture and subsequent
regeneration. Hinge-joints usually occur in pairs near the base of an unbranched
stem or at the bases of the hydrocladia of a branched stem, but may also occur
at irregular intervals in addition to the normal nodes.

The arrangement of the hydrothecae on the stem and hydrocladia varies.
Commonly the hydrothecae are alternate (e.g. in Sertularella and Symplecto-
scyphus) or in opposite pairs (e.g. in many species of Sertularia), but they may
be subalternate or subopposite. In all of these the hydrothecae form two longi-
tudinal rows. Members of the two rows may be well separated or may be
CONTIGUOUS and touch one another in the centre on one surface. Occasionally
the hydrothecae form more than two longitudinal rows (e.g. in Selaginopsis and
Dictyocladium). In Hydrallmania the hydrothecae are borne in a single row on
one surface of the stem, but their distal ends are bent alternately to left and to
right.

Most of the Sertulariidae have sessile and bilaterally symmetrical hydro-
thecae, with one side adnate to the stem to a varying degree. In some of the more
specialized genera such as Thuiaria and Salacia all, or almost all, of one surface
of the hydrotheca may be adnate and deeply sunk into the stem. Associated
with the adnate condition the hydrotheca is usually curved, with the mouth
directed away from the stem, but there may also be a double curvature—
outwards and then distally.

In the genus Sertularella with its numerous species the curvature of the
hydrotheca is important in diagnosis and thus needs precise definition. Three
categories are recognized:

1. Margin perpendicular to axis. Hydrotheca not curved, and flask-shaped in
lateral view. A line dropped at right angles to the margin and through its
centre will bisect the hydrotheca and pass through the base of the adcauline
wall.

2. Margin tilted towards abcauline side. Hydrotheca curved away from stem. A
line dropped at right angles to the margin and through its centre will pass
through the adcauline wall.

3. Margin tilted towards adcauline side. Hydrotheca with double curvature. A
line dropped at right angles to the margin and through its centre will pass
through the abcauline wall or through the hydropore.

Because of the curvature of the hydrotheca measurements may be difficult.

In this work the marginal diameter and the abcauline length of the hydrotheca
are usually given, and these are taken in lateral view, the length being measured
as a straight line from the floor of the hydrotheca to the abcauline margin
across any curvature which may be present. Occasionally the abcauline length
cannot be measured accurately because the floor does not reach the abcauline
wall. In such cases the adcauline length is given instead. Measurements are
always exclusive of any additional margins resulting from regeneration.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 241

erculum 5;
OR adcauline side

marginal tooth

internal tooth y

adnate part

intrathecal

abcauline side septum

contiguous part

hydropore internode

node

| 1 Moe joint

SERTUPAREELA
SERTULARIA
LE
a,
abcauline
length
Margin perpendicular tilted towards tilted towards
to axis abcauline side adcauline side

SHAPE IN SERTULARELLA

Fig. 78.
Sertulariidae: hydrothecal shape and structure.

Possibly as a result of curvature the hydrotheca may have internal folds,
Or INTRATHECAL SEPTA, and these may be adcauline or abcauline or on both sides.
They form a useful point of attachment for the hydranth and are characteristic
of many species of Sertularia and of the genus Crateritheca.

In the sessile species the hydrotheca has a definite floor of perisarc with an
excentric hydropore. The hydropore is close to the abcauline side, and the
floor is attached to, and continuous with, the base of the adcauline wall. The
adcauline wall is often produced below the floor as a thickened knot of perisarc.

Also included in the Sertulariidae are a few genera with stalked, yet oper-
culate, hydrothecae. These have in the past been included variously in the
Campanulinidae, Campanulariidae and Sertulariidae. Mammen (1965a) created
for them a new family, the Thyroscyphidae. Of these, the genera Thyroscyphus
and Parascyphus were reviewed by Splettstésser (1929), who also created a
new genus, Cnidoscyphus, for certain species on the basis of nematocyst
structure and arrangement. (Cnidoscyphus is not recognized in the present work,

242 ANNALS OF THE SOUTH AFRICAN MUSEUM

for the author feels that nematocyst structure and arrangement are not suffi-
cient grounds for separating genera which are otherwise very similar.) These
genera are usually considered to be more primitive than the sessile genera and
to differ from them in the presence of a diaphragm in the hydrotheca. It is
felt, however, that the diaphragm is strictly comparable with the floor of
the sessile hydrothecae where the pedicel has been eliminated. The stolonial
genus Calamphora in fact bridges the gap. Calamphora has unmistakable
affinities with Sertularella and was not included in the Thyroscyphidae by
Mammen. Its solitary hydrotheca has a diaphragm of the thyroscyphid type,
but Leloup (1935: 35) illustrated a colony of C. parvula (under the name of
Thyroscyphus intermedius f. peculiaris) with two hydrothecae to a stem, in which
the proximal one is sessile and adnate as in a typical Sertularella. These pedi-
cellate genera are here retained in the Sertulariidae.

In the Sertulariidae the margin of the hydrotheca is typically toothed,
and the number and shape of the teeth are useful in diagnosis. For instance,
Sertularella has four marginal teeth, Symplectoscyphus three and Amphisbetia
two. In a few forms the marginal teeth are almost obsolete (e.g. in Jdiellana) or
absent (Abietinaria, Thuiaria).

OC aa

NY

4 valves 3 valves adcauline abcauline hinge hinge
4 teeth 3 teeth larger larger adcauline abcauline
PYRAMID-SHAPED 2 VANES 2a BEM 1 VALVE
Fig. 79.

Sertulariidae: marginal teeth and opercular valves (adcauline side on right).

In addition to the marginal teeth some species have INTERNAL TEETH
formed by pegs of perisarc projecting into the cavity of the hydrotheca just
below the margin. These are particularly prevalent in Sertularella, where in
certain cases their presence or absence, number and position may be diagnostic
for the species.

The mouth of the hydrotheca is closed by an OPERCULUM consisting of one
or more valves hinged at the edge. In genera with three or four marginal teeth
a similar number of valves is seated in the bays between them and meet in the
centre to form a pyramid, e.g. Sertularella, Symplectoscyphus, Thyroscyphus.
Genera with two marginal teeth, as for instance Sertularia, Amphisbetia and
Dynamena, have an operculum of two valves of unequal size attached at the ad-

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 243

and abcauline edges. The larger valve is adcauline in Amphisbetia and abcau-
line in Dynamena and Sertularia. In these forms the adcauline valve may be
divided into two by a partition and bent at an angle like a roof. Genera with
only one large opercular valve include Diphasia, Idiellana, Abietinaria, Thuiaria
and Salacia. The hinge is adcauline in the first three and abcauline in the last
two; it is often seated in an embayment of the margin. Sometimes the operculum
is shed fairly early in development, as in some species of Thyroscyphus, or
reduced to a membrane, as in Crateritheca acanthostoma, or even lost altogether,
as in Stereotheca. These genera thus show relationship to the Syntheciidae, but
are retained in the Sertulariidae because of the toothed hydrothecal margin.
Naumov (1960) suggests that the number of opercular valves provides an
example of the evolutionary process of oligomerization, those with many
valves being primitive and those with one or none being advanced. On con-
traction the hydranth is completely withdrawn into the hydrotheca and the
operculum closed over it. Regeneration of the margin is accompanied by
regeneration of the operculum, so that there may be several opercula, one above
the other.

P<
22 OC

Se BIE Wa d\ Mele lal

Fig. 80.
Sertularella: internal teeth (adcauline side on right).

In certain genera (Abietinaria, Amphisbetia, Calamphora, Crateritheca,
Hydrallmania, Parascyphus, Sertularella, Sertularia, Symplectoscyphus and
Thuiaria) contraction of the hydranth into the hydrotheca causes the proximal
part of the gastral cavity wall to be folded into a BLIND CAECUM on the abcau-
line side. This is due in part to the attachment of the ectoderm of this region
to the hydrothecal wall preventing its complete withdrawal. This blind caecum
is useful in generic diagnosis, but it must be borne in mind that it can only be
observed in the contracted hydranth. It imparts a bilateral symmetry to the
hydranth. In other genera the hydranth is withdrawn symmetrically into the
hydrotheca and there is no caecum, e.g. Dictyocladium, Diphasia, Dynamena,
Idiellana and Salacia. In Thyroscyphus withdrawal of the hydranth causes an
annular folding all round the body, and Splettstésser (1929) considers this to be
an early stage in the evolution of a blind caecum.

244 ANNALS OF THE SOUTH AFRICAN MUSEUM

nematocyst
batteries

ectoderm lining

hypostome

ectoderm

annular

endoderm fold

Fig. 81.

Sertulariidae: structure of hydranth (shown retracted) in diagrammatic l.s. A, with blind
caecum, e.g. Sertularella; B, without caecum, e.g. Dynamena; C, with annular fold, e.g,
Thyroscyphus.

The ectoderm of the hydranth is produced as a lining over the inner wall
of the hydrotheca to a varying degree, and in Thyroscyphus may form a “Decken-
platte’ below the operculum. To this lining of ectoderm the ectoderm of the
hydranth is fastened in certain strategic positions where perisarcal thickenings
of the hydrotheca may develop. Although Mammen (1965a), following Nutting
(1904), speaks of ‘protractor’ and ‘retractor’ muscles, to the author’s knowledge
actual muscle fibres have as yet not been identified in these attachments. Nema-
tocysts may in certain cases be present in the lining ectoderm or in the ‘Decken-
platte’, and it was on this feature that Splettst6sser (1929) based his genus
Cnidoscyphus.

A peculiar structure is present in Sertularia ligulata (Fig. 100D) and_is
possibly present in other species too (it has been seen in S. turbinata). This 1s
the LIGULA. It. consists of a slender outgrowth from the base of the adcauline
side of the hydranth and it protrudes as a leaf-shaped process through the mouth
of the hydrotheca. It often remains clearly visible after the hydranth has con-
tracted. Its function is not clear, but since it is well armed with nematocysts,
it may serve as a nematophore. Although nematothecae do not occur in the
Sertulariidae, in Amphisbetia minima certain small pores occur with some
regularity on the internodes of the stem and each is usually surrounded by a low
collar of perisare (Fig. 82H). They have sometimes been called nematothecae, but
there is as yet no proof of the presence of nematophores.

The gonothecae are usually dioecious and sometimes also dimorphic. No
special protective structures are developed around them and they are not
aggregated, but the perisarc may be transversely annulated or sculptured with
an elaborate arrangement of spines. The eggs are usually fertilized in situ and

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA

245

the planulae developed within the gonotheca. In some species the developing
eggs are extruded through the opening of the gonotheca into an acrocyst
(Fig. 90B). In Diphasia and Sertomma the spiny processes of the gonotheca may
bend over and meet in the centre to enclose a brood-chamber or MARSUPIUM.

There has been much disagreement over the limitations of genera in

the

Sertulariidae, Broch (1918) recognizing only a few (9), and Stechow (1923c)
a large number (36). The present work adopts an intermediary course, and for
the limitations of the genera Diphasia, Dynamena and Salacia the views of
Billard (1925a) have been accepted.

IN

10.

ie

f2.

KEY TO GENERA
[Genera not represented in South Africa are bracketed]

Hydrotheca stalked
Hydrotheca sessile

Colony stolonial .. a me sit a a Be Calamphora p.

Colony with upright stem .. a = se ais
Hydrotheca with four marginal hen al eee ie of four valves. Hydranth

with annular fold, but no caecum ot Thyroscyphus p.

Hydrotheca with three marginal teeth and operculum of three valves (in South

African species). Hydranth with abcauline caecum ce ay Parascyphus p.

Hydrotheca with more than four marginal teeth ;
Hydrotheca with no marginal teeth, or with four or less

Hydrotheca with internal ridges or septa oe Be an Crateritheca p.

Hydrotheca without internal ridges or septa... te = Stereotheca p.
Hydrothecal operculum in form of pyramid, consisting of three or four valves.

Margin with three or four teeth of equal size
Operculum not in form of pyramid. Margin not as above; with no ) teeth, two
teeth, or three-four teeth not equal in size

Hydrothecae arranged in more than two longitudinal rows in at least some

parts of stem : iy Dictyocladium p.

Hydrothecae alternate and arranged i in two longitudinal rows only
Hydrotheca with four marginal teeth and operculum of four valves. Mouth

quadrangular : Sertularella p.

Hydrotheca with three marginal ‘teeth and operculum of three valves. Mouth
triangular

Hydrothecae alternate. Hydranth with abcauline caecum Bee cere is p.

Hydrothecae opposite. Hydranth without abcauline caecum .. [Sertomma]
Operculum of two valves, the adcauline one sometimes divided into two.

Hydrotheca with two marginal teeth (and sometimes a minute median,
adcauline one as well) Be

Operculum of one valve. Hydrothecal margin generally ‘not toothed (but
toothed in Diphasia tetraglochina)

Bases of hydrothecae forming one longitudinal row, their distal ends bending

alternately to right and left. Adcauline valve of operculum the larger Hydrallmania p.

Bases of hydrothecae eumine two apie rows, more or less on the
sides of the stem

Marginal teeth of Beas near abcauline oe aesaude opercular valve

larger than abcauline. Hydranth with abcauline caecum ay Amphisbetia p.

Marginal teeth of hydrotheca more or less midway between adcauline and
abcauline edge. Abcauline opercular valve larger than adcauline

269

247

246 ANNALS OF THE SOUTH AFRICAN MUSEUM

13. Hydranth without abcauline caecum. Hydrothecal Ba typically (though not
always) grouped... Dynamena p. 261
— Hydranth with abcauline caecum. Hydrothecal pairs never prouped Sertularia p. 305

14. Operculum adcauline ae 308 ee se ae ie ce be 15
— Operculum abcauline ee : Bee 17
15. Hydrotheca expanding distally. gaan without caneaunes caecum Diphasia p. 256
— Hydrotheca not expanding distally ae , ek : 16

16. Hydranth without abcauline caecum. fay aromnGese all on one ate of
hydrocladium : ai Idiellana p. 269

— Hydranth with abcauline | caecum. " Hydrothecae on lateral surfaces of hydro-
cladium a 3 ie ae a es se oe Abietinaria p. 246

17. Hydrothecae in more than two longitudinal rows a ee mae
— Hydrothecae in two longitudinal rows .. aa i Pe 18
18. Hydranth with abcauline caecum .. o Ry. s ats ae Thuiaria p. 320
— Hydranth without abcauline caecum ae? a ue x = Salacia p. 271

Genus Abietinaria Kirchenpauer, 1884

Diagnosis. Stem erect, bearing hydrothecae, and sometimes hydrocladia as well,
in two longitudinal rows. Hydrocladia different in structure to stem, with inter- .
nodes of irregular length. Hydrotheca sessile, partly adnate, flask-shaped and
wider at base than at margin, without distinct marginal teeth. Operculum of
one large adcauline valve. Hydranth with abcauline blind caecum.

Type species: Sertularia abietina Linnaeus, 1758.

One species from South Africa and one doubtful record.

Abietinaria laevimarginata (Ritchie, 1907)
Fig. 82F-G

Sertularia laevimarginata Ritchie, 1907a: 507, pl. 26 (figs 5-6).
Sertularia linealis Warren, 1908: 308, fig. 9. Millard, 1958: 195, fig. 8D, G.
rate laevimarginata: Gravier, 1972: 8, fig. 2C. Millard & Bouillon, 1974: 27, fig. 7A—C,
non Sertularia linealis var. longa Millard, 1958: 197, fig. 8E.
non Sertularia linealis: Millard, 1968: 272.
non Sertularia linealis longa: Millard & Bouillon, 1973: 75, fig. 9E-F.
Diagnosis. Hydrorhiza growing on weed and typically arranged in longitudinal
lines, without strengthening pegs of perisarc, but usually with four ingrowing
perisarcal lobes around origin of stem. Stem unfascicled, unbranched, reaching
a maximum height of 5 mm, each internode bearing a pair of opposite hydro-
thecae. Two (or rarely three) hinge-joints present near base of stem below
thecate part, remaining nodes slightly oblique or indistinct. Members of a pair
of hydrothecae contiguous in front (except sometimes for the basal pair),
separate behind, their free adcauline walls typically forming a straight line at
right angles to the axis of the stem.

Hydrotheca adnate for over half adcauline length, bent outwards, narrow-
ing to margin and usually constricted just below it, with no intrathecal ridge,
with thick perisarc, 0,13-0,3 mm in abcauline height and 0,08-0,11 mm in

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 247

marginal diameter. Margin especially thick on adcauline edge, with two low,
rounded lateral lobes. Internal teeth present, one large adcauline, which may be
double, and two low latero-abcauline. Operculum shed early.

Gonotheca borne on front of stem below first pair of hydrothecae, smooth,
compressed, spherical to ovoid in broad view, with a wide distal operculate
aperture on a low collar, reaching 1,0 mm in length and 0,8 mm in maximum
diameter.

Variation. The shape of the hydrotheca changes along the length of the stem,
the distal ones being more erect and contiguous for a greater length than the
basal ones. The free adcauline walls of the distal pair may thus not form a
straight line but subtend an obtuse angle between them. The marginal lobes of
the hydrotheca vary in development and may be quite distinct or almost obsolete.

Distribution outside South Africa. Cape Verde Islands (type locality), tropical
western Indian Ocean, including Madagascar, Wasin, Cargados and Chagos.

Distribution in South Africa. Northern Natal and Mocambique, on weed in
shallow water. 25/32, 26/32 (s), 27/32

Doubtful species
Abietinaria abietina (Linnaeus, 1758)

Sertularia abietina Linnaeus, 1758: 808. Busk, 1851: 118. Hincks, 1868: 226, pl. SO.
Abietinaria abietina: Vervoort, 1946a: 237, figs 103-105. Millard, 1961: 204. Redier, 1963: 640.

Remarks. There is only one record of this species from South Africa, that of Busk in
1851. Although Busk’s material was correctly identified (Millard 1961), his locality is
subject to doubt since the species has not been reported again. The only recent record
from the Indian Ocean is that of Redier (1963) from Madagascar.

Genus Amphisbetia L. Agassiz, 1862
Syn. Odontotheca Levinsen, 1913.

Diagnosis. Stem erect, branched or unbranched. Stem and hydrocladia bearing
hydrothecae in two longitudinal rows. Hydrothecae sessile, partly adnate,
with two prominent marginal teeth seated near abcauline edge and occasionally
a small, median adcauline one. Operculum of two valves, a larger adcauline
one and a smaller abcauline one. Hydranth with abcauline blind caecum.

Type species: Sertularia operculata Linnaeus, 1758.

KEY TO SPECIES

1. Stem unbranched, Members of a pair of hydrothecae contiguous with one another, at
least in distal region of stem a: i of ine a A, minima
— Stem branched. Members of a pair of hydrothecae never contiguous with another .. 2

2. Stem branching dichotomously. Stem and branches similar, with one pair of hydro-
thecae to each internode (though nodes sometimes not clearly defined) A. operculata
— Branching alternate. Stem with three hydrothecae and a branch (hydrocladium) to each
internode, hydrocladia with a variable number of hydrothecae to an internode
A. maplestonei

248 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 82.

Amphisbetia maplestonei. A, part of stem showing gonotheca and origins of hydrocladia;
B, stem; Cand D, hydrotheca with and without internal teeth; E, margin of hydrotheca
with operculum.

Abietinaria laevimarginata. F, stem with gonotheca, drawn from Warren’s holotype of

Sertularia linealis; G, distal part of hydrotheca with near wall removed to show internal
teeth and opercula.

Amphisbetia minima. H, two pairs of hydrothecae; J, stem with gonotheca; K, margin of
hydrotheca with operculum.

Scale: B in cm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 249

Amphisbetia maplestonei (Bale, 1884)
Fig. 82A—E

Sertularia maplestonei Bale, 1884: 70, pl. 6 (fig. 4), pl. 19 (fig. 2).
Sertularia bidens Bale, 1884: 70, pl. 6 (fig. 6), pl. 19 (fig. 1). Warren, 1908: 310, fig. 10.
Thuiaria maplestonei: Billard, 1907a: 349, fig. 5, pl. 25 (figs 2-6).
Amphisbetia bidens: Millard, 1957: 220. Millard, $958: 182.
Diagnosis. Stem unfascicled, flexuous to stiff, unbranched or branching
irregularly near base, pinnate, geniculate, reaching a maximum height of 130
mm. Basal part athecate and acladiate, with a variable number of transverse
nodes. Distal part divided into regular internodes by oblique nodes sloping in
alternate directions. Each internode bearing one hydrocladium and three hydro-
thecae, one in axil and a subopposite pair above. Hydrocladia alternate, the
two rows in one plane.

Hydrocladium narrower than stem, divided by straight nodes into inter-
nodes bearing a variable number of subopposite pairs of hydrothecae. Members
of a pair of hydrothecae not contiguous.

Hydrotheca adnate for half to three-quarters adcauline length, the adnate
part sac-shaped and curved outwards, the free part narrowing to margin and
curved upwards, 0,2-0,3 mm in abcauline height (without teeth) and 0,07-
0,10 mm in marginal diameter. Margin with two long and bluntly rounded
latero-abcauline teeth. An internal perisarcal peg present on abcauline wall at
a quarter to a third of height. Internal teeth present or absent. Hydranth with
13-14 tentacles.

Gonothecae borne on stem and hydrocladia, smooth, flat-triangular in
section, pear-shaped in broad view, with two hollow distal spines arising above
two of the angles and a terminal operculate aperture on a low collar, reaching
1,7 mm in height and 0,9 mm in maximum diameter.

Colour pale brown.

Variation. One or two hinge-joints may separate the basal athecate part of the
stem (which is of variable length) from the distal part. Stem nodes may be
indistinct in parts.

The two rows of hydrothecae on the hydrocladium are usually in one plane,
but may be shifted towards the anterior surface. Hydrocladia occasionally
branch, when the cauline arrangement is reassumed for a short interval.

The more distal hydrothecae tend to be longer than the proximal ones
and to have better developed marginal teeth. The two marginal teeth are often
unequally developed. The internal teeth, when present, vary in number from
one (adcauline) to four (two adcauline and two abcauline.)

The gonotheca rarely has a third distal spine.

Distribution outside South Africa. Australia, Madagascar and Vema Seamount
(South Atlantic). Type locality: Portland, Australia.

Distribution in South Africa. False Bay to Richard’s Bay, littoral to 84 m.

250 ANNALS OF THE SOUTH AFRICAN MUSEUM

34/18 (s), 34/22 (s), 34/23 (1, s), 33/25 (s), 34/25 (s), 33/26 (s), 33/27 (s), 31/29
(1, s), 30/30 (1, s), 29/31 (s), 28/32 (s)

Amphisbetia minima (Thompson, 1879)
Fig. 82H-K
Sertularia minima D’Arcy Thompson, 1879: 104, pl. 17 (fig. 3). Bale, 1884: 89, pl. 4 (figs

9-10), pl. 19 (figs 12-13). Bale, 1915: 269. Billard, 1910: 17.

Amphisbetia minima: Ralph, 196la: 774, fig. 8a—h. Watson, 1973: 179, figs 38-39.
Diagnosis. Hydrohiza creeping on weed, with internal thickenings of perisarc.
Stem short, reaching a maximum height of 6 mm, unfascicled, unbranched;
with a very short basal athecate part terminated by 1-3 hinge-joints and a long
distal part bearing up to 15 pairs of hydrothecae, one pair to an internode.
Normal nodes narrow, oblique. Members of a pair of hydrothecae contiguous
in front (except sometimes for the basal few), separate behind.

Hydrotheca tubular, curved outwards, almost or completely adnate, with
no intrathecal ridge, 0,12-0,2 mm in abcauline height (without teeth) and
0,07—0,12 mm in marginal diameter. Margin facing upwards, with two prominent
latero-abcauline teeth.

One or two pores commonly present on at least some internodes, situated
on the antero-lateral edges of the internode below the hydrothecae, usually
surrounded by a low perisarcal collar.

Gonothecae borne on front of stem, one to each, near base and below first
or second thecal pair, compressed antero-posteriorly, smooth, pear-shaped in
broad view, with terminal operculate aperture on low collar, reaching a height
of 1,5 mm and a maximum diameter of 1,0 mm, male and female on separate
colonies. Collar with minute internal teeth.

Variation. The hydrothecae differ in shape along the length of the stem, those at
the base being more divergent than the rest. The two marginal teeth may be of
unequal size, the more anterior one being shorter.

Remarks, The pores on the internodes with their surrounding collars have
sometimes being called nematothecae, but there is no proof of the presence
of nematophores. The coenosarc of the stem has been seen to produce an out-
growth reaching to the level of the pore, but not protruding through it. The
pore is probably more comparable to the mamelon of certain Plumulariidae.

Distribution outside South Africa. Circumglobal in south temperate waters:
Australasia, Chile, Falklands, Vema Seamount, Antarctic, Suez. Type locality:
Gulf of St. Vincent, Australia.

Distribution in South Africa. Round coast from Lambert’s Bay on west to
Inhaca on east, never common, littoral to 27 m. 32/18 (1), 33/18 (1), 34/18 (s, D,
34/22 (s), 26/32 (1, s)

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 251

Amphisbetia operculata (Linnaeus, 1758)
Fig. 83A—E

Sertularia operculata Linnaeus, 1758: 808. Hincks, 1868: 263, pl. 54. Bale, 1884: 67, pl. 6

(fig. 1), pl. 19 (fig. 3).

Sertularia aperta Allman, 1886: 138, pl. 13 (figs 1-2).

Amphisbetia operculata: Ralph, 1961a: 775, fig. 8i-k. Millard, 1964: 26.

Diagnosis. Stem unfascicled, slender and flexuous, branching and rebranching
dichotomously to form bushy or straggling tufts reaching a maximum height
of 148 mm. No marked distinction into main stem and branches. Hydrothecae
in opposite pairs, one pair to an internode, but nodes only visible in younger
regions; members of a pair not contiguous except in axils of branches. Dicho-
tomous branching in a plane at right angles to hydrothecal pairs.

Hydrotheca tubular, sloping outwards, almost or completely adnate,
with no intrathecal ridge, 0,2-0,3 mm in abcauline height (without teeth)
and 0,11-0,14 mm in marginal diameter. Margin facing upwards, with two
sharply pointed latero-abcauline teeth, of which one is usually longer than the
other.

Gonothecae borne on stem and branches, compressed, pear-shaped in
broad view, smooth, with terminal operculate aperture on a low collar, reaching
2,1 mm in height and 0,9 mm in maximum diameter.

Variation. Although the branching is always dichotomous, one limb of the
dichotomy is often much longer than the other, giving the appearance of a long
main stem with subsidiary branches which divide only once or twice or not at all.
The length and thickness of the internodes may be somewhat greater on the
main axis than on the smaller branches, but the difference is never very marked.
The two rows of hydrothecae may be in the same plane or shifted onto the
anterior surface of the stem.

Distribution. Cosmopolitan. Type locality not specified.

Distribution in South Africa. Common from Liideritz Bay in South West
Africa to Richard’s Bay in Natal, littoral to 100 m. 26/15 (1), 28/16 (s), 32/18
(1, s), 33/17 (s), 33/18 (s), 34/18 (s), 34/19 (s), 35/19 (s), 34/22 (I, s), 33/23 (1),
34/23) (Ss; d), 33/25 (s), 34/25 (Ss), 33/26 (s), 33/27 (s), 32/28 (s), 30/30 (), 29/31
(1, s, h), 28/32 (s).

Genus Calamphora Allman, 1888

Diagnosis. Colony stolonial, with hydrothecae and gonothecae arising direct
from hydrorhiza. Hydrotheca barrel-shaped with four marginal teeth and an
operculum of four triangular valves seated in the bays between the teeth and
meeting in the centre as a pyramid. Hydranth with blind caecum.

Type species: Calamphora parvula Allman, 1888.
One species only from South Africa.

252. ANNALS OF THE SOUTH AFRICAN MUSEUM

fA
AtR,$
BAN
ON ie

Fig. 83.

Amphisbetia operculata. A, stem; B, part of stem with female gonophores; C and D,
hydrothecae; E, margin of hydrotheca with operculum.
Calamphora campanulata. F, three hydrothecae, two containing hydranths with blind caecum.
Scale: A in cm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 253

Calamphora campanulata (Warren, 1908)

Fig. 83F

Sertularella campanulata Warren, 1908: 300, pl. 47 (figs 21-22).
Calamphora campanulata: Stechow, 19196: 83. Stechow, 1925b: 225. Mammen, 1965a: 35,
fig. 67.
Diagnosis. Colony creeping on weeds. Hydrotheca solitary, pedicellate. Pedicel
usually shorter than hydrotheca, spirally twisted, with 2—5 turns, arising at an
angle from hydrorhiza. Hydrotheca terminal, small, barrel-shaped, with 5-8
transverse annulations, 0,4-0,5 mm in height, 0,2-0,3 mm in maximum diameter
and 0,14-0,2 mm in marginal diameter. No internal teeth. Hydranth with
about 20 tentacles.
Gonotheca (not reported from South Africa) borne on hydrorhiza,
pedicellate, barrel-shaped, broader than hydrotheca, transversely annulated,
with operculum of four valves. (Mammen.)

Remarks. Although this is a stolonial species there is some bilateral symmetry.
The blind caecum, which is normally abcauline in the Sertulariidae, is on the
side closest to the hydrorhiza, and the hydropore is excentric and displaced
towards the same side. The perisarc tends to be thicker on the opposite side.

Distribution outside South Africa. Madagascar, India, Indo-China, Japan,
Australia. Type locality: Natal, South Africa.

Distribution in South Africa. Northern Transkei and southern Natal, littoral.
31/30 (1), 30/30 (1)

Genus Crateritheca Stechow, 1921

Diagnosis. Stem erect, unfascicled, pinnate. Stem and hydrocladia bearing
two or more longitudinal rows of hydrothecae.

Hydrotheca sessile, with more than four marginal teeth, with prominent
intrathecal septa and often with external longitudinal ridges. Operculum
reduced; either absent altogether, or consisting of a single membranous valve.
Hydranth with abcauline blind caecum.

Type species: Pericladium novaezelandiae Thompson, 1879.
One species only from South Africa.

Crateritheca acanthostoma (Bale, 1882)
Fig. 84

?Dynamena pluridentata Kirchenpauer, 1864: 14, fig. 10.

Sertularia acanthostoma Bale, 1882: 11, pl. 12 (fig. 4). Bale, 1884: 85, pl. 4 (figs 7-8). Warren
1908: 303, fig. 7, pl. 46 (figs 23-26).

Crateritheca acanthostoma: Millard, 1964: 26, fig. 7.

Diagnosis. Stem moderately stiff, unbranched, reaching 50 mm in height;

divided by transverse nodes into regular internodes, each bearing a pair of

254 ANNALS OF THE SOUTH AFRICAN MUSEUM

opposite hydrothecae, and every third one a pair of opposite hydrocladia
from the proximal region. The two rows of hydrocladia in one plane. Hydro-
cladium divided into internodes of which the first is short and athecate, the
second bears one hydrotheca on the lower surface, and the rest bear a pair of
subopposite hydrothecae each. The two rows of hydrothecae in one plane.

Hydrotheca adnate for a little over half adcauline height, widening evenly
to mouth, straight or bent slightly outwards, 0,2-0,3 mm in abcauline height
and 0,16-0,2 mm in marginal diameter. Margin with eight pairs of teeth, of
which numbers 1, 3, 5, and 7 (counting from the abcauline surface) are short
and bent inwards, numbers 2, 4 and 6 are long and directed slightly outwards,
and number 8 is short and straight. Three intrathecal septa present: a trans-
verse shelf about half-way up adcauline side, a transverse perforated shelf about
one-quarter of the way up abcauline side, and a very narrow transverse shelf
about three-quarters of the way up abcauline side forming the base of a longi-
tudinal trough communicating with the cavity of the hydrotheca. External
surface smooth and without longitudinal ridges or furrows. Hydropore funnel-
shaped. Operculum a delicate membranous plate, present only in young hydro-
thecae. Hydranth with 23 tentacles. Hydrotheca lined with a thin layer of
ectoderm which continues into the abcauline trough where it bears a cluster of
large nematocysts.

Gonotheca (not recorded from South Africa) long, obovate, smooth,
with wide operculate distal aperture.

Variation. In the basal part of the stem there may be two to six athecate inter-
nodes of irregular length and one to four pairs of hydrothecae before the
hydrocladia commence. The hydrocladia normally arise from every third inter-
node, but at times any number from one to six pairs of hydrothecae may be
present between two consecutive pairs of hydrocladia. The hydrocladia
occasionally branch in the same manner as the stem.

Distribution outside South Africa. Australia (type locality), Madagascar.

Distribution in South Africa. Natal coast, littoral to 34 m. 31/29 (s), 31/30 (1),
30/30(1), 29/31 (1), 28/32 (s)

Genus Dictyocladium Allman, 1888

Diagnosis. Stem erect, branched or unbranched. Hydrothecae in opposite or
subopposite pairs, alternate pairs staggered in at least some regions of stem
to give the appearance of four longitudinal rows. Hydrotheca sessile, with three
or four marginal teeth and an operculum with a corresponding number of valves.
Hydranth with no abcauline caecum.

Type species: Dictyocladium dichotomum Allman, 1888.
One species only from South Africa.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 255

Fig. 84.

Crateritheca acanthostoma. A, hydrotheca in side view, adcauline side on right; B, stem;
C, part of stem with origins of hydrocladia; D, hydrotheca viewed from above, showing
marginal teeth, the aperture closed by operculum; E, t.s. abcauline wall viewed from
above, showing upper abcauline septum (c); F, t.s. hydrotheca at deeper level viewed
from above, showing adcauline septum (a) and lower abcauline septum ()).

Scale: B in cm, the rest in mm/10.

256 ANNALS OF THE SOUTH AFRICAN MUSEUM

Dictyocladium coactum Stechow, 1923

Fig. 86F—H
Dictyocladium coactum Stechow, 19236: 107. Stechow, 1925a: 466, fig. 27. Millard, 1957: 206.
Diagnosis. Hydrorhiza attached to substratum at intervals only. Stem flexuous,
unfascicled, normally unbranched, reaching 28 mm in height, with nodes at
irregular intervals and a varying number of hydrothecae to a node. Hydro-
thecae alternate to opposite, alternate pairs typically staggered to give four
longitudinal rows. Stem narrowed and devoid of hydrothecae in region of
nodes.

Hydrotheca sunk into stem for all, or almost all, adcauline length, curved
outwards, with distinct bulge in lower part of abcauline wall, 0,2-0,4 mm in
abcauline height and 0,16—0,2 mm in marginal diameter. Margin with four low,
but distinct, teeth. Operculum of four triangular valves seated in the bays
between the marginal teeth and meeting in the centre as a pyramid.

Gonothecae borne on the stem on the proximal parts of the internodes,
ovate, deeply annulated throughout or in distal part only, with terminal aper-
ture but no collar.

Variation. Branching stems occur rarely, the branches arising from within
hydrothecae and exactly resembling the stem. Stolonization is not so profuse
as in the type species of the genus and only occasionally do the terminal ends of
the stems form stolons which attach to the substratum.

The arrangement of the hydrothecae on the stem is very variable. The
number to an internode varies and so does the number of longitudinal rows.
Usually there are two longitudinal rows in the lower region formed by alternate,
subopposite or opposite pairs of hydrothecae, changing to four longitudinal
rows of tightly packed hydrothecae in the upper part. In one case five
longitudinal rows were seen, three on one side and two on the other. Often
there are two longitudinal rows at the base of an internode and four at the distal
end. Occasional stems have two rows throughout. Along the length of the stem
there is a change in the shape of the hydrotheca, the proximal ones being
strongly bent outwards with their margins almost parallel to the axis of the
stem, and the distal ones less so. The bulge on the abcauline wall of the hydro-
theca varies in degree, sometimes it is very marked and there is a transverse
groove immediately above it. Isolated hydrothecae in a colony may have an
abcauline internal tooth which may be very large.

Distribution. Endemic to South Africa. Type locality: Agulhas Bank.

Distribution in South Africa. South coast, from False Bay to Natal in 0-155 m.
34/18 (s), 34/19 (s), 35/22 (d), 34/24 (d), 34/25 (s), 33/26 (d), 33/27 (s), 32/28 (s),
29/31 (s), 28/32 (s)

Genus Diphasia L. Agassiz, 1862

Syn. Nigellastrum Oken, 1815.
Diphasiella Stechow, 1921.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA Za

Diagnosis. Stem erect, branched or unbranched, fascicled or unfascicled.
Stem and hydrocladia bearing a double, or rarely a triple, row of hydrothecae.
Hydrotheca sessile, tubular and usually expanding distally, usually without
marginal teeth, with an operculum of one large adcauline valve. Hydranth
without abcauline caecum. Gonothecae unprotected, usually dioecious and
provided with projecting ridges or spines, with marsupium in female.

Type species: Sertularia rosacea Linnaeus, 1758.

KEY TO SPECIES
(Doubtful species not included; for these see p. 260)

1. Hydrotheca with four small marginal teeth pet: ee at D. tetraglochina
— Hydrotheca with no marginal teeth he a m3 S ot Bs Be pte 2
2. Hydrotheca with abcauline intrathecal septum .. fs me iP D. heurteli
— Hydrotheca without intrathecal septum .. ay: is bi se D. digitalis

Diphasia digitalis (Busk, 1852)

Fig. 85E
Sertularia digitalis Busk, 1852: 393.
Nigellastrum digitale: Mammen, 1965a: 57, fig. 89.
Diphasia digitalis: Vervoort, 1968: 37, fig. 17. Millard & Bouillon, 1973: 67, fig. 9A. Millard

& Bouillon, 1974: 31, fig. 6B.

Diagnosis. Stem stiff, unfascicled, branched or unbranched, reaching a maxi-
mum height of 44 mm; with transverse nodes visible in younger regions only,
each internode bearing a pair of hydrothecae; a hinge-joint present near base
below first pair of hydrothecae. Hydrocladia alternate, arising from postero-
lateral surface of stem usually after every two pairs of hydrothecae and forming
almost a right angle with stem, the two rows in one plane. Hydrothecae in
opposite pairs, consecutive pairs close, separated from one another by a distance
of less than ¢ height or overlapping. In lower region of stem members of a pair
of hydrothecae placed on lateral surfaces, not contiguous with one another,
and adnate to stem for about 3 height; in distal region and on hydrocladia
members of a pair placed on anterior surface, contiguous with one another
and adnate for up to entire length.

Hydrotheca tubular, widening gently to margin, smoothly curved outwards,
usually polygonal in section with 3-5 angles which are visible in front view as
longitudinal ridges, perisarc thickened on abcauline wall, 0,7—1,0 mm in abcau-
line height and 0,3 mm in marginal diameter. Margin untoothed, saddle-shaped.

Gonothecae (not reported from South Africa) borne on stem, elongate,
covered with short, curved spines arranged in 10-16 longitudinal rows.

Variation. Regeneration of the hydrotheca is often indicated by the persistence
of an old operculum below the new one, although the old margin seldom
leaves a regeneration line.

The variation in the hydrothecae along the length of the stem is
characteristic of the species and is indicated in the diagnosis.

258 ANNALS OF THE SOUTH AFRICAN MUSEUM

Distribution outside South Africa. Circumglobal in tropical and subtropical
waters. Type locality: Torres Straits.

Distribution in South Africa. Inhaca only. 26/32 (s)

Diphasia heurteli Billard, 1924

Fig. 85A-D
Diphasia pinaster: Billard, 1907a: 357.
Diphasia heurteli Billard, 1924: 67, fig. 2.
Diphasia heurteli var. simplex Billard, 1933: 19, fig. 7.
non Diphasia heurteli: Nutting, 1927: 218, pl. 42 (figs 5-7).

Diagnosis. Stem fairly stiff, unfascicled, unbranched or, rarely, with one
lateral branch, reaching a maximum height of 27 mm, with a basal athecate part
terminated by an oblique hinge-joint, the remainder bearing hydrothecae in
strictly opposite pairs. Consecutive pairs of hydrothecae separated by slightly
oblique nodes in some regions only, pairs close to one another and often over-
lapping. Members of a pair not in contact with one another.

Hydrotheca tubular, widening to margin, curved outwards, flattened on
abcauline side in basal region and with the angles of this flat surface continued
as two longitudinal ridges almost to margin, three other longitudinal ridges
present but less distinct, one abcauline and two latero-adcauline; adnate for
isi Of adcauline side, 0,4-0,7 mm in abcauline height and 0,16-0,3 mm in
marginal diameter. Abcauline wall thickened and an abcauline intrathecal
septum usually present, well developed and curved distally, the base forming a
crescent-shaped figure when viewed externally. Margin untoothed, facing
upwards and almost perpendicular to stem.

Female gonothecae borne in a single row on front of stem, arising
immediately below hydrothecae on one side, saccular, with wide distal aperture,
bearing irregularly arranged short, blunt spines on distal half, containing many
small eggs. Male gonothecae unknown.

Variation. In the younger regions and sometimes in complete young stems
the intrathecal septum may be absent as in var. simplex Billard, 1933. The
abcauline wall of the hydrotheca is, however, thickened in this region.

In addition to the normal operculum many hydrothecae have one or two
supplementary opercula hinged to the adcauline wall just below the level of the
intrathecal septum.

Remarks. This is the first discovery of the gonothecae of D. heurteli in the type
area. Gonothecae of material from the China Sea attributed to D. heurteli
were described by Nutting (1927). These are completely different in structure,
and I must therefore exclude Nutting’s material from the synonymy.

D. heurteli is very similar to D. mutulata, a species well illustrated by
Billard (1933). The main differences are the shorter free part of the hydrotheca
in the latter, and the structure of the gonotheca which in D. mutulata has a
narrow distal aperture.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 259

B=) EG

Fig. 85.
Diphasia heurteli. A, stems; B, part of stem (some hydrothecae with supplementary opercula);
C, hydrotheca; D, gonotheca.
Diphasia digitalis. E, unbranched stem.
Diphasia tetraglochina. F, stem; G, gonotheca; H, a pair of hydrothecae viewed from above
to show asymmetry (operculum in position on right).
Scale: A in cm, the rest in mm/10.

260 ANNALS OF THE SOUTH AFRICAN MUSEUM

Distribution outside South Africa. Mocgambique (type locality), Gulf of Suez.

Distribution in South Africa. Natal to Mocgambique, 2-100 m, rare. 29/31 (s),
28/32 (d), 24/35 (s)

Diphasia tetraglochina Billard, 1907
Fig. 85F—H
Diphasia tetraglochina Billard, 1907a: 358, fig. 7. Millard, 1964: 28, fig. 8. Millard & Bouillon,

1974: 31, fig. 6C.

Diagnosis. Hydrorhiza creeping on weed, with internal thickenings of perisarc.
Stem short, reaching a maximum height of 7 mm, unfascicled, unbranched,
divided by markedly oblique nodes into internodes each bearing a pair of opposite
hydrothecae. Members of a pair separate in front, sometimes contiguous behind
in distal region of stem.

Hydrotheca tubular, widening to margin, curved outwards, not bilaterally
symmetrical but twisted towards anterior surface, adnate for 4-3? length,
0,3-0,5 mm in abcauline length and 0,15—0,3 mm in marginal diameter. Margin
with four small, pointed teeth, one adcauline, two abcauline and one anterior.

Gonothecae borne on stem, one to each, below first pair of hydrothecae,
elongate-oval, bearing small spines in distal half, reaching 0,8 mm in length
and 0,5 mm in maximum diameter. Aperture terminal, small, circular, on a
raised neck.

Variation. The distal region of the stem normally has longer internodes and
larger hydrothecae than the proximal region. The perisarc is sometimes thickened
in the centre of the abcauline thecal wall and occasionally around the margin.

Distribution outside South Africa. Madagascar only. Type locality: Fort
Dauphin.

Distribution in South Africa. Two areas only: Agulhas Bank south of East
London, and Inhaca district. 33/27, 25/32, 26/32 (s)

Doubtful species
Diphasia attenuata (Hincks, 1866)

Sertularia rosacea: Busk, 1851: 118.
Diphasia attenuata: Hincks, 1868: 247, pl. 49 (fig. 1a—d). Vervoort, 1959: 258, fig. 26. Millard,
1961: 204.

non Sertularia rosacea Linnaeus, 1758: 807.
Remarks. Busk reported this species from Algoa Bay as Sertularia rosacea (see Millard
1961). It has not been reported since and the record must be regarded as doubtful.

Diphasia bipinnata Allman, 1886
Diphasia bipinnata Allman, 1886: 136, pl. 12 (figs 1-2).
Remarks. Allman was doubtful about the locality of the material on which this species
was founded, giving it as ‘Cape of Good Hope’. The species has never been recorded

again, and from Allman’s description and figures it might well be a synonym for the
well-known Diphasia fallax (Johnston 1847).

MONOGRAPH ON,THE HYDROIDA OF SOUTHERN AFRICA 261

Diphasia nigra (Pallas, 1766)

Sertularia nigra Pallas, 1766: 135. Busk, 1851: 118.
Sertularia pinnata Pallas, 1766: 136.
Diphasia pinnata: Hincks, 1868: 255, pl. 52. Vervoort, 1946a: 232, fig. 100.

Remarks. For this species there is only Busk’s record of 1851. Since it has hot been
reported from South Africa since, the record must be regarded as doubtful.

Genus Dynamena Lamouroux, 1812

Syn. Pasythea Lamouroux, 1812.
Pasya Stechow, 1922.

Diagnosis. Stem erect, branched or unbranched. Stem and branches bearing
hydrothecae in two longitudinal rows. Hydrothecae in opposite or subopposite
pairs, which are often concentrated in groups. Hydrotheca sessile, partly or
completely adnate, with two marginal teeth seated more or less midway between
adcauline and abcauline edge, and usually a small, median adcauline one.
Operculum of two valves, a smaller adcauline one and a larger abcauline one,
the former often divided into two by a median partition. Hydranth with no
abcauline caecum.

Type species: Sertularia pumila Linnaeus, 1758.
KEY TO SPECIES

(Doubtful species not included; for these see p. 268)
i Hydrothecae on simple stems and on hydrocladia of branching stems in subopposite

pairs. Members of a pair never contiguous .. : D. crisioides
— Hydrothecae on simple stems and on hydrocladia of branching syne always in ae
opposite pairs. Members of at least some pairs contiguous ee Zz

2. Hydrotheca tubular and not narrowing to mouth. Hydrothecae on ans stems a

on hydrocladia of branching stems never grouped, with only one pair to an internode
D. cornicina

— Hydrotheca narrowing to mouth. Stem never branched. Hydrothecae often grouped,
with two or more pairs to an internode we

3. Hydrotheca sac-shaped, with greatest width more than half Spandine height D. obliqua
— Hydrotheca tubular but bulging at base of abcauline side, with greatest width half
or less than half abcauline height .. ci e f ee .. D. quadridentata

Dynamena cornicina McCrady, 1858
Fig. 86A—-E
Dynamena cornicina McCrady, 1858: 102. Billard, 1925a: 188, tig. 40, pl. 7 (fig. 23). Vervoort,
1941: 206, fig. 3. Millard, 1964: 29, fig. 9.
Diagnosis. Stem unfascicled, either simple or pinnately branched.

Branching stem reaching 60 mm, divided by straight nodes into regular
internodes, each bearing one hydrocladium and three hydrothecae (one in axil
and a subopposite or alternate pair above). Hydrocladia alternate, the two rows
in one plane. Hydrocladium arising from short apophysis, with one basal
athecate internode terminated by a hinge-joint, and a series of thecate inter-
nodes each bearing a pair of opposite hydrothecae. Members of a pair of

262 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 86.

Dynamena cornicina. A, colony with simple and branched stems; B, margin of hydrotheca with
operculum (abcauline valve in broken line); C and D, the upper two and the lower two
pairs of hydrothecae of a simple stem bearing 12 pairs in all; E, gonotheca.

Dictyocladium coactum. F and G; hydrothecae, G with an internal tooth; H, part of colony
with two stems and gonothecae.

Scale: A in cm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 263

hydrocladial hydrothecae always contiguous in front, separate behind, placed
on upper surface of hydrocladium.

Simple stem reaching a height of 9 mm. Basal athecate part terminated by
oblique hinge-joint. Remainder with transverse or slightly oblique nodes.
Each internode bearing one pair of opposite hydrothecae. Hydrothecae not
grouped. Members of a pair of hydrothecae contiguous in front (except some-
times in proximal region of stem), separate behind.

Hydrotheca tubular and of more or less equal diameter throughout;
adnate for over half adcauline length, then curved outwards, 0,2-0,5 mm in
abcauline height and 0,13-0,20 mm in marginal diameter, abcauline wall
thickened below margin. Lateral marginal teeth large, delicate, triangular.
Adcauline marginal tooth small.

Gonotheca arising from hydrorhiza or occasionally from base of stem,
ovate, deeply annulated, with broad aperture and flat operculum, reaching
1,4 mm in length and 0,9 mm in maximum diameter

Variation. In South African material the stem internodes (in simple stems)
or hydrocladial internodes (in pinnate stems) are regular and short, with the
interval between consecutive pairs of hydrothecae less than the hydrothecal
length, but in other localities the internode length is reported as variable, and
the interval between consecutive pairs of hydrothecae may exceed the hydro-
thecal length.

A change in shape of the hydrotheca takes place along the length of the
simple stem and hydrocladium of pinnate stems, those at the base being shorter,
less adnate and more markedly bent out than the distal ones. The axillary
hydrothecae are less adnate and more sharply curved out than the rest.

Distribution. Cosmopolitan. Type locality: Charleston harbour.

Distribution in South Africa. Port Elizabeth to Inhaca, littoral to 14 m. 33/25
(s), 34/25 (s), 31/29 (1), 26/32 C, s), 25/32, 21/35

Dynamena crisioides Lamouroux, 1824
Fig. 87A—F
Dynamena crisoides Lamouroux, 1824: 613, pl. 90 (figs 11-12). Billard, 1925a (including all
varieties): 181, figs 36-39, pl. 7 (figs 21-23), pl. 8 (fig. 24). Millard, 1968 (including var.
gigantea): 183, fig. 6C. Mammen, 1965a: 51, figs 84-85. Vervoort, 1968: 38, fig. 18.
Millard & Bouillon, 1974: 32, fig. 6D.
Thuiaria tubuliformis: Warren, 1908: 314, fig. 12.
Thuiaria interrupta: Gravely, 1927: 13, pl. 2 (figs 7, 12).
Diagnosis. Stem unfascicled, straight or zigzag, reaching a maximum height of
160 mm, bearing alternate hydrocladia; with a short basal athecate part termi-
nated by a transverse node, then thecate internodes separated by transverse or
slightly oblique nodes, each internode normally bearing one hydrocladium near
base, one hydrotheca in the axil and a variable number of subopposite pairs
of hydrothecae above. Hydrocladium borne on long apophysis, which may be

264 ANNALS OF THE SOUTH AFRICAN MUSEUM

separated from the stem by a partial or complete node, divided by straight
nodes into internodes which bear a variable number of subopposite pairs of
hydrothecae. The two rows of hydrothecae in one plane; members of a pair not
contiguous with each other, though consecutive pairs on an internode may
overlap to form groups.

Hydrotheca tubular, adnate for half to over nine-tenths of adcauline length,
then bent outwards, 0,3-0,7 mm in abcauline height and 0,09-0,2 mm in mar-
ginal diameter. Margin facing outwards, parallel to axis or nearly so, with two
broad and triangular lateral marginal teeth and one smaller adcauline one.
Hydranth with about 19 tentacles.

Gonotheca arising from stem or branch below hydrotheca, occasionally
from within hydrotheca, smooth or irregularly folded, ovate, with curved distal
neck and operculum.

Variation. This is a very variable species, and a number of varieties and forms
are on record. It does not seem practicable to use subspecific rank for these,
since in many cases intermediate forms are known (Billard 1925a; Gravely
1927; Mammen 1965a). Several occur in South Africa.

The normal form typically has a short (about 20 mm), zigzag stem which
is narrow at the base (0,4 mm or less), so that members of a pair of hydro-
thecae are separated by a distance less than the diameter of one of them.

Forma gigantea Billard, 1925 has a taller (100-160 mm) stem, which
is straight except for the extremity and is much wider at the base (0,5-0,9 mm)
so that members of a pair of hydrothecae are separated by a distance at least
equal to, and usually considerably greater than, the diameter of one of
them.

Forma alternata Billard, 1925 shows no grouping of the hydrothecae on
the hydrocladium, but has only one subopposite pair to each internode. The
hydrotheca is smaller and less adnate than in the typical form (half to two-
thirds as against two-thirds or more) and the hydrocladial apophysis arises
below the third hydrotheca on each normal stem internode.

Billard (1925a) also distinguishes a var. peculiaris with internal teeth in some
hydrothecae, either one adcauline or one abcauline or both. In South Africa
internal teeth may occur in certain hydrothecae of any of the above forms,
though never in the whole colony.

All the forms show variation in the number of hydrothecae to an inter-
node; the usual number on the stem is three, but there may be more or less;
on the hydrocladia the number varies from two to ten. The number of
hydrocladia to a stem internode may vary from nought to two.

Distribution outside South Africa. Cosmopolitan, mainly in tropical and
subtropical waters. Type locality: Moluccas.

Distribution in South Africa. East coast, from the Haven northwards, littoral.
32/28 (I), 31/29 (1), 31/30 (1), 30/30 @); 29/31 (1), 26/32 (), 25/32, 23/35 Ms 235

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 265

y

Fig. 87.

Dynamena crisioides. A, gonothecae: B, part of stem of normal form with origins of hydro-
cladia; C, hydrocladium of normal form; D, hydrocladium of forma alternata; E,
hydrocladium of forma gigantea; F, stems of normal form (left) and forma alternata
(right).

Dynamena quadridentata. G, gonotheca; H, unusual stem with most of the hydrothecal pairs
ungrouped; J, typical stem.

Scale: F in cm, the rest in mm/10.

266 ANNALS OF THE SOUTH AFRICAN MUSEUM

Dynamena obliqua Lamouroux, 1816
Fig. 88F—G
Dynamena obliqua Lamouroux, 1816: 179. Billard, 1925a: 198. Millard, 1958: 184, fig. 6A.
Hirohito, 1969: 19, fig. 13.

Pasythea quadridentata var. Balei Billard, 1907a: 355, fig. 6.
Diagnosis. Hydrorhiza with or without internal perisarcal thickenings. Stem
unfascicled, unbranched, reaching a maximum height of 17 mm. Normal
nodes indistinct. Oblique hinge-joints present (a) terminating basal athecate
part of stem, and (6) at irregular intervals in distal region, each forming the
termination of a separate, narrow, athecate internode. Each thecate internode
usually bearing only one pair of opposite hydrothecae, rarely a group of two
pairs contiguous with each other. Members of a pair of hydrothecae contiguous
in front (except in basal region of stem), separate behind.

Hydrothecae swollen but narrowing to mouth, bent outwards, adnate for
over half adcauline length, 0,2-0,3 mm in abcauline height and 0,12-0,14 mm
in marginal diameter, aperture directed obliquely forwards. Lateral marginal
teeth broad, triangular, sharp or bluntly rounded. Adcauline marginal tooth
distinct.

Gonotheca (not reported from South Africa) borne on front of stem near
base, barrel-shaped, with four or more transverse annulations, with a broad
distal aperture on a low neck and a flat operculum.

Variation. In this species there is less tendency towards grouping of thecal pairs
than, for instance, in D. quadridentata, and many stems bear only one pair per
internode throughout. In South Africa no more than two pairs have been
observed on an internode, although as many as four have been observed else-
where.

Internal teeth occasionally occur in some hydrothecae of a stem, and there
may be one abcauline and one adcauline, or one abcauline and two latero-
adcauline, or one adcauline and two latero-abcauline teeth.

Distribution outside South Africa. Australasia (type locality), Japan,
Mogambique.

Distribution in South Africa. Natal and Inhaca, 10-66 mm. 30/30°(s), 29/31
(s), 26/32 (s)

Dynamena quadridentata (Ellis & Solander, 1786)
Fig. 87G—J

Sertularia quadridentata Ellis & Solander, 1786: 57, pl. 5 (fig. g, G).
Pasythea quadridentata: Warren, 1908: 312, fig. 11.

Dynamena quadridentata: Billard, 1925a: 194, figs 42-43. Millard, 1958: 186, fig. 6B. Vervoort
1968: 41, fig. 19.

Dynamena gibbosa: Billard, 1925a: 199, fig. 45.

Diagnosis. Hydrohiza creeping on weed, commonly with internal perisarcal
thickenings. Stem unfascicled, unbranched, reaching a maximum height of

MONOGR4APH ON THE HYDROIDA OF SOUTHERN AFRICA 267

Fig. 88.

Idiellana pristis. A, stem: B, part of stem in anterior view with origins of hydrocladia; Cand
D, lateral and abcauline views of operculum; E, hydrothecae.
Dynamena obliqua. F, upper part of stem; G, complete stem.
Scale: A in cm, the rest in mm/10.

268 ANNALS OF THE SOUTH AFRICAN MUSEUM

7 mm. Normal nodes transverse and often indistinct. Oblique hinge-joints
present (a) terminating basal athecate part of stem, and (6) at irregular intervals
in distal region, each forming the termination of a separate, narrow, athecate
internode. Each thecate internode bearing one or a group of pairs of opposite
hydrothecae; the pairs in a group up to four in number, contiguous with one
another and showing a difference in shape, the proximal pair being more diver-
gent and less adnate than the distal one. Members of a pair of hydrothecae
contiguous in front, separate behind.

Hydrotheca tubular but narrowing to margin, bent outwards, adnate for
over half adcauline length, 0,17-0,4 mm in abcauline height and 0,07-0,13 mm
in marginal diameter, with or without internal teeth; members of solitary pairs
and the basal pair of a group with a distinct outward bulge in base of abcauline
wall. Lateral marginal teeth broad and triangular. Adcauline marginal tooth
small but distinct.

Gonotheca borne on front of stem at base of first thecate internode,
barrel-shaped, with 3-6 distinct transverse annulations, with broad distal
aperture and flat operculum.

Variation. In this species there is a greater tendency towards grouping of
hydrothecal pairs than in D. obliqua, and single pairs are rare and usually occur
only in the proximal region of the stem. Hinge-joints are more common than in
D. obliqua.

The presence of internal thecal teeth is a variable character and there may
be one adcauline and one or two abcauline ones.

In the literature a number of varieties of this species has been described
which tend to grade into one another. The South African material appears to
be intermediate between var. nodosa Hargitt, 1908, and Dynamena gibbosa
Billard, 1924, which is considered to merit varietal rank only. Both are dis-
tinguished by an outward bulge in the abcauline wall of the basal hydrotheca of
a group, more distinct in v. gibbosa than in v. nodosa.

Distribution outside South Africa. Circumglobal in tropical and warm temperate
waters. Type locality: west coast of Africa near Ascension Island.

Distribution in South Africa. Port St. Johns to Mocambique, littoral to 49 m.
31/29 (s), 30/30 (1), 29/31 ( s), 27/32.(), 26/32 (, s),-25/32, 24/35) Gs 237s
21/35

Doubtful species
Dynamena pumila (Linnaeus, 1758)

Sertularia pumila Linnaeus, 1758: 807. Hincks, 1868: 260, pl. 53 (fig. 1).
Dynamena pumila: Krauss, 1837: 28. Calder, 1970a: 1528, pl. 6 (fig. 1).

Remarks. This species has been reported once only, by Krauss, from Mossel Bay. No
diagrams are given and the identification is dubious.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 269

Genus Hydrallmania Hincks, 1868

Diagnosis. Stem erect, giving off spirally arranged branches. Branches pinnate,
bearing alternate hydrocladia. Hydrocladium in mature colony bearing hydro-
thecae in one longitudinal row, their distal ends directed alternately to left and
right. Hydrotheca sessile, usually partly adnate, with two lateral and often ill-
defined marginal teeth. Operculum of two delicate valves, a larger adcauline
one and a smaller abcauline one which is not easily recognizable. Hydranth
with abcauline blind caecum.

Type species: Sertularia falcata Linnaeus, 1758.
A doubtful record of one species only in South Africa.

Doubtful species
Hydrallmania falcata (Linnaeus 1758)

Sertularia falcata Linnaeus, 1758: 810
Plumularia falcata: Busk, 1851: 118
Hydrallmania falcata: Broch, 1918: 135, fig. 73. Millard, 1961: 206.

Remarks. This species occurs exclusively in the North Atlantic. Busk’s record from
South Africa must be regarded as doubtful although his material was correctly identi-
fied (Millard 1961). It has never again been reported from this country.

Genus I/diellana Cotton & Godfrey, 1942

Syn. Idiella Stechow, 1919.

Idia Lamouroux, 1816.
Diagnosis. Upright colonies with pinnate stems bearing alternate hydrocladia.
Stem and hydrocladia bearing a double series of alternate or subalternate
hydrothecae on anterior surface. Hydrotheca sessile, with two poorly developed
lateral lobes. Operculum of one adcauline valve. Hydranth with no abcauline
caecum.

Type species: Jdia pristis Lamouroux, 1816.
One species only from South Africa.

Idiellana pristis (Lamouroux, 1816)
Fig. 88A—E
Idia pristis Lamouroux, 1816: 199, pl. 5 (fig. 5). Allman, 1888: 85, pl. 39 (figs 1-10). Ritchie
1910b: 820.

Idiellana pristis: Ralph, 1961a: 766, fig. 5c-e.

Diagnosis. Stem unfascicled, reaching 60 mm in height, divided into regular
internodes by oblique nodes which slope in alternate directions; each internode
bearing one hydrocladial apophysis and three hydrothecae (one in axil and an
alternate pair above); the two rows of hydrothecae not contiguous. Hydro-
cladium unsegmented or with a few sparse nodes at long intervals, bearing a
double row of alternate, overlapping hydrothecae on the anterior face, the two
rows contiguous with one another.

270 ANNALS OF THE SOUTH AFRICAN MUSEUM

Hydrothecae tubular, adnate for over half length, then free and bent out
at a wide angle, 0,4-0,6 mm in abcauline height, and 0,13-0,20 mm in marginal
diameter. Margin with two broadly triangular lateral lobes; rotated to face
distally and posteriorly. No internal teeth. Operculum not sharply demarcated
from hydrotheca at adcauline edge, with a median ridge dividing it into two
for part of its length.

Gonotheca (not reported from South Africa) borne on front of stem below
hydrotheca, urn-shaped, longitudinally ridged, with short pedicel and circular
distal aperture on a raised tubular collar.

Remarks and variation. The broad hydrocladia with their double row of pro-
jecting hydrothecae resemble the rostrum of the saw-fish, Pristis, after which
the species was named. The overlapping of the hydrothecae gives the impression
of a division of the hydrocladium into a double series of chambers. Rejuvena-
tion of the margin of the hydrotheca is common, resulting in variation in length
of the free part. Axillary hydrothecae on the stem are less bent outwards than
the others. A longitudinal ridge is sometimes visible on the anterior surface of
the hydrotheca.

The hydrotheca is commonly described as having a median adcauline
marginal tooth, but there is no sign of this in the South African material.
The operculum in fact is continuous with the adcauline edge as described by
Ritchie (19106) and there is no hinge. It opens by bending and in old hydrothecae
tends to collapse into the cavity.

Distribution outside South Africa. Circumglobal in tropical seas, extending into
temperate waters in certain areas. Type locality: New Holland (Australasia).

Distribution in South Africa. East coast: Natal and Mocambique, 0-44 m.
30/30'(S); 26/3221); 25/32 G), 21/35

Genus Parascyphus Ritchie, 1911

Diagnosis. Stem erect, unbranched or little branched, bearing two rows of
alternate hydrothecae. Hydrotheca pedicellate and free from stem, elongated,
bilaterally symmetrical. Margin with three or four teeth. Operculum pyramid-
shaped, of three or four valves. Diaphragm small or incomplete. Hydranth with
abcauline caecum.

Type species: Laomedea simplex Lamouroux, 1816.
One species only from South Africa.

Parascyphus simplex (Lamouroux, 1816)
Fig. 89A-B

Laomedea simplex Lamouroux, 1816: 206.
Thyroscyphus simplex: Bale, 1915: 245.
Parascyphus simplex: Splettstésser, 1929: 100, 126, figs 92-94. Millard, 1968: 268, fig. 4D.

Diagnosis. Stem stiff, unfascicled. unbranched or sparsely branched, reaching

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 274

12 mm in height. The two rows of hydrothecae more or less in one plane.
Stem and hydrocladia divided into internodes by slightly oblique nodes, each
internode bearing a hydrotheca on an apophysis near the distal end.

Hydrothecal pedicel short, a little narrower than apophysis, not annulated,
separated from apophysis by a partial or complete node. Hydrotheca small to
medium, elongate, markedly convex on adcauline side, straight or with a double
curvature on abcauline side, 0,5-0,6 mm in height from diaphragm and 0,19-
0,2 mm in marginal diameter. Margin with three tall pointed teeth, one adcau-
line and two latero-abcauline, separated by deep bays. Operculum of three
valves. Diaphragm present on adcauline side only.

Gonothecae (not recorded from South Africa) borne on lower part of
stem, elongate-oval, smooth, with rounded distal end and small circular aperture
(Bale 1915).

Variation. The rim of the hydrotheca may be thickened to a varying degree.
Stolonization may occur.

Distribution outside South Africa. Australasia (type locality), Scotland, Gough
Island, Vema Seamount (South Atlantic).

Distribution in South Africa. One record only, from the Natal coast in 91 m.
30/31 (s)

Genus Salacia Lamouroux, 1816
Syn. Dymella Stechow, 1922.

Diagnosis. Stem erect, bearing hydrothecae in two longitudinal rows, with or
without hydrocladia which may be opposite or alternate. When present, hydro-
cladia different in structure to stem, with internodes of irregular length. Hydro-
theca sessile, partly or completely adnate, without distinct marginal teeth.
Aperture triangular. Operculum of one large, abcauline valve. Hydranth without
abcauline caecum.

Type species: Salacia tetracythara Lamouroux, 1816.

Remarks. The conclusions of Billard (1925a: 137) on the validity and nature
of this genus have been adopted.

KEY TO SPECIES

. Stem without hydrocladia, bearing opposite pairs of ers one pair to an inter-

node ae ae S. desmoides
Stem bearing Doporite hydrocladia. Sridrothecaen in groups, more than one pair to an
internode on stem and hydrocladia a a be Ne: sie a fhe

. Hydrocladia arising at right angles to stem. Groups of hydrothecae separated by a
distance greater than the height of one hydrotheca ; S. disjuncta
Hydrocladia arising at an angle of 50-60° to stem. Groups of hydrocladial hydrothecae
separated by a distance less than the height of one hydrotheca oh S. articulata

ey pee ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 89.

Parascyphus simplex. A, part of stem; B, hydrotheca and hydranth.

Salacia articulata. C, fertile stem; D, part of stem with origins of hydrocladia; E, gonotheca;
F, hydrothecae.

Scale: C in cm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA pe.

Salacia articulata (Pallas, 1766)

Fig. 89C-F

Sertularia articulata Pallas, 1766: 137.

Thuiaria ellisii Busk, 1851: 119.

Thuiaria persocialis Allman, 1876: 271, pl. 17 (figs 4-6).

Thuiaria pectinata Allman, 1888: 69, pl. 33 (figs 1-1a).

Thuiaria articulata: Ritchie, 1909: 84, fig. 6. Broch, 1914: 36, pl. 1 (fig. 3).
Dymella articulata: Vervoort, 19466: 320.

non Thuiaria articulata: Hincks, 1868: 277, pl. 60.

non Dymella articulata: Vervoort, 1946a: 264, fig. 116.

Diagnosis. Stem moderately stiff, unfascicled, unbranched, bearing opposite
hydrocladia, reaching a maximum height of 220 mm but more commonly 40-
80 mm, divided by straight nodes into fairly regular internodes which normally
bear three pairs of opposite hydrothecae and one pair of hydrocladia arising
between the first and second pairs of hydrothecae. Hydrocladia forming a wide
angle with the stem (50-60°), the two rows in one plane. The two rows of
hydrothecae seated on the sides of the stem, and well separated from one
another.

Hydrocladium narrower than stem, with distinct nodes at irregular intervals,
each internode bearing a variable number of subopposite to opposite pairs of
hydrothecae. The two rows of hydrothecae seated on the sides of the hydro-
cladium and not contiguous with one another.

Hydrotheca tubular, curved outwards, adnate for all or almost all adcauline
length, narrowing slightly to margin, 0,2-0,4 mm in abcauline height and 0,11-
0,18 mm in marginal diameter. Margin untoothed, thickened on abcauline edge.
No internal teeth.

Gonothecae borne on stem or hydrocladia, ovoid, smooth or transversely
annulated, truncated distally, with a broad terminal aperture on a low collar,
reaching 3 mm in height and 1,5 mm in maximum diameter.

Variation. Irregularities occasionally occur in the arrangement of the stem inter-
nodes, which may bear but one pair of hydrothecae and no hydrocladia, or
two pairs of hydrothecae and one pair of hydrocladia. In the basal region of
the stem below the first hydrocladium there is a variable number of hydrothecae
to an internode. The interval between successive pairs of hydrothecae also
varies and the pairs tend to be more closely placed on the hydrocladia, where
they may overlap one another, than on the stem, where there is usually a short
interval separating two pairs. Members of a pair of hydrothecae are opposite
on the stem, but subopposite in the proximal regions of the hydrocladia, grad-
ually changing to opposite more distally. Stolonization from the ends of
hydrocladia is common. Rarely branching hydrocladia occur.

Remarks. There has been much confusion in the literature between this species
and S. lonchitis (Ellis & Solander, 1786). The latter has a northern habitat and
can be distinguished by its alternate hydrocladia.

274 ANNALS OF THE SOUTH AFRICAN MUSEUM

Distribution outside South Africa. Vema Seamount (South Atlantic), tropical
South West Africa. Type locality: Atlantic Ocean.

Distribution in South Africa. All round the coast, particularly common in the
south-west area; littoral to 135 m. [19/12()], 26/15 (S), 27/15 @); 32/18 G)
33/17 (s), 33/18 (1), 34/18 (1, s), 34/21 (s), 35/21 (d), 34/22 (s), 34/23 (s), 34/24 (d),
33/25, 34/25 (s), 33/26 (s), 33/27 (1, s), 32/28 (s), 33/28 (Ss), 30/30 (s), 30/31 (s),
29/31 (s), 28/32 (s), 26/33 (d), 24/35 (d)

Salacia desmoides (Torrey, 1902)
Fig. 90A—C

Sertularia desmoidis Torrey, 1902: 65, pl. 8 (figs 70-72).
Sertularia desmoides: Nutting, 1904: 56, pl. 3 (figs 1-3).
Salacia desmoides: Billard, 1924: 66. Millard, 1967: 179, fig. 4A—C.
Diagnosis. Stem unfascicled, usually unbranched, slender, reaching a maximum
height of 4 mm and bearing up to seven pairs of well-spaced opposite hydro-
thecae. Nodes very oblique and resembling hinge-joints; usually one below each
pair of hydrothecae. Members of a pair of hydrothecae contiguous in front,
separate behind.

Hydrotheca adnate for over half length, then curved outwards, 0,14—
0,3 mm in abcauline height and 0,11-0,15 mm in marginal diameter. Margin
untoothed, thickened on abcauline edge. No internal teeth.

Gonothecae borne on front of stem below hydrothecal pairs, barrel-
shaped, with shallow transverse annulations and broad distal aperture con-
taining a ring of internal spiny processes, male and female on separate stems.
Male reaching 1,2 mm in length and 0,8 mm in maximum diameter. Female
reaching 1,5 mm in length and 1,1 mm in maximum diameter, with external
marsupium.

Variation. Although the type material of this species was said to branch ‘sparely
and irregularly’, the South African material only rarely produces a single short
lateral branch. The spacing of the hydrothecal pairs is always regular, though
occasionally one of the obliqué nodes may be missing.

Distribution outside South Africa. California (type locality) and neighbouring
areas of the eastern Pacific, Walter’s Shoal in southern Indian Ocean.

Distribution in South Africa. Transkei coast, littoral, on coralline algae. 31/29
(I), 31/30 (1)
Salacia disjuncta Millard, 1964
Fig. 90D—-F
Salacia disjuncta Millard, 1964: 31, fig 10A-F.

Diagnosis. Stem moderately stiff, unfascicled, bearing opposite hydrocladia,
reaching a maximum height of 36 mm, divided by straight nodes into fairly

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 275

Fig. 90.

Salacia desmoides. A, stem with male gonophores; B, stem with female gonophore;
C, hydrothecae with hydranths and opercula.

Salacia disjuncta. D, stem; E, part of stem with origins of hydrocladia; F, hydrothecae.

Scale: D in mm, the rest in mm/10.

276 ANNALS OF THE SOUTH AFRICAN MUSEUM

regular internodes, each of which bears three pairs of opposite or subopposite
hydrothecae and one pair of hydrocladia arising between the first and second
pairs of hydrothecae. Hydrocladia forming a right angle with stem, the two
rows in one plane. The two rows of hydrothecae seated on the sides of the stem
and well separated from one another.

Hydrocladium much narrower than stem, with very distinct, constricted
nodes at irregular intervals, each internode with a long slender proximal part
without hydrothecae and a wider distal part bearing a closely compressed group
of 2-3 pairs of opposite or subopposite hydrothecae. The two rows of hydro-
thecae seated on the sides of the hydrocladia and not contiguous with one
another in the centre.

Hydrotheca tubular, curved outwards, adnate for 3-# length, narrowing
slightly to margin, 0,3-0,4 mm in abcauline height and 0,10-0,14 mm in marginal
diameter. Margin untoothed, transversely widened, thickened on abcauline
edge. No internal teeth.

Gonothecae unknown.

Variation. Stem internodes occasionally bear only one pair of hydrothecae;
those at the base of the stem are irregular in length and bear no hydrocladia.

Distribution. Endemic to South Africa. Type locality: Agulhas Bank, 32°15,2’S/
25° 5). 1-5 0)am

Distribution in South Africa. False Bay and Agulhas Bank, 29-84 m. 34/18 (s),
32/28 (s), 33/28 (s)

Genus Sertularella Gray, 1847
Syn. Thecocladium Allman, 1886.

Diagnosis. Stem erect, branched or unbranched. Stem and hydrocladia bearing
alternate hydrothecae which form two longitudinal rows. Hydrotheca sessile,
with four marginal teeth and an operculum of four triangular valves seated in
the bays between the teeth and meeting in the centre as a pyramid. Hydranth
with abcauline caecum.

Type species: Sertularia polyzonias Linnaeus, 1758.

KEY TO SPECIES
(Doubtful species not included: for these see p. 305; for types of hydrothecal shape see p. 241)

1. More than one hydrotheca to an internode : 2
— Only one hydrotheca to an internode (though nodes may be tadieenet | in older stems) 3

2. Cauline hydrothecae regularly spaced, three to an internode. Hydrocladial hydro-
thecae grouped, with a variable number to an internode. Hydrocladia arising below

cauline hydrothecae : ue S. diaphana
— Stem and hydrocladia similar, with srouped hydrothecae, a variable number to an

internode. Hydrocladia arising from within cauline hydrothecae Be S. flabellum
3. Internal teeth present within hydrothecal margin Me My ae 44 eC!

No internal teeth .. re ude ee = be ys ee a eS.

Wi.

ES:

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA PAS

. Three internal teeth, one of them median adcauline or abcauline suacgial two

small additional ones too) . 5
Four internal teeth, which always a alternate with ‘marginal teeth (one or more occa-
sionally missing) .. nes oa a ie AAs a Ii |
Hydrotheca very large (over 0,7 mm in aniline height) ay 6
Hydrotheca small to medium (under 0,8 mm in abcauline height). ‘Internal teeth
always one abcauline, two latero-adcauline |... ay Vii
Hydrotheca adnate for over half height. Internal teeth one Meouline. two ators.
abcauline De: : S. goliathus
Hydrotheca adnate for under half height, ‘Internal teeth one abcauline, two latero-
adcauline.. ve S. leiocarpa
Mature stem fascicled tad re arenes Beeched: Benning typically pinnate
and in one plane... 8

Mature stem unfascicled, short, mnbranched or a nee with ih —5 irregular pranches 10
Hydrotheca not annulated, axis distinctly bent outwards and margin tilted away
from stem .. : Bs an op S. arbuscula
Hydrotheca with distinct transverse annulations Be a es,
Hydrotheca small (under 0,5 mm in abcauline height), Searcy narrowing to mouth
(which is under 0,2 mm in eoeees margin Pe alg: to axis or tilted away
from stem .. : S. gilchristi
Hydrotheca of medium size (0, 5-0, 7 mm in ‘abcauline height), not markedly
narrowing to mouth (which is over 0,2 mm in ie margin perpendicular to

axis or tilted towards stem : ae S. agulhensis
Hydrotheca annulated on nd caulinie seul Abeauline, margin not produced and
margin tilted away from stem ae S. natalensis
Hydrotheca not annulated. Abcauline margin generally produced and margin
either tilted towards stem or perpendicular to axis et re .. iS. mediterranea
. Mature stem fascicled, branching pinnately and in one plane. Hydrotheca distinctly
annulated on adcauline surface .. .. S. pulchra
Mature stem unfascicled, unbranched or ‘branching iegulacly Hydrotheca not, or
only faintly, annulated w an 3 ele

. Stem short, unbranched, or at most with one or two sbreuiches: Hy araiiess with

margin perpendicular to axis and with convex or straight abcauline wall _S. fusiformis
Stem long, flexuous and straggling, with irregular branches. Hydrotheca with margin

tilted away from stem and with concave abcauline wall he 5 S. polyzonias
. Hydrotheca with distinct ridged annulations continued all the way round wall ee
Hydrothecal wall smooth, or with weak annulations on adcauline surface only .. 16

. Hydrotheca usually with six or seven annulations spread evenly over entire length,

never less than four; abcauline marginal tooth produced and longer than others S. striata
Hydrotheca with not more than three annulations restricted to free part; Sai oe
teeth of equal size .. ie He ae see ls)

. Stem long and tangled, branching Henley. aoe oar to stem for half

or more of height .. : S. capensis
Stem short and unbranched, beme at moet eieht hydrothecae and ‘often only one.
Hydrotheca adnate to stem for less than half height .. i: S. annulaventricosa

. Hydrocladial hydrothecae overlapping, the tip of one reaching about half-way up the

next. Free part of adcauline wall of oper almost touching internode, with an
open angle of less than 20° : S. congregata
Hydrothecae not overlapping, the tip of one seldom reaching Above base of next. Free
part of adcauline wall of eee at well away from internode, with an

open angle of over 40° ss : ie - ae wld,
Stem flexuous and straggling aie to aes eat, out of fluid) Se S. polyzonias
Stem stiff (able to support itself out of fluid) .. ae an ore a re tS

Stem strongly fascicled and branching in one plane; final branches pinnate, giving off
regularly alternate hydrocladia .. at ahi ae wi ti 2) wadubia

278 ANNALS OF THE SOUTH AFRICAN MUSEUM

— Stem unfascicled or (rarely) lightly fascicled; unbranched or with one order of
branches only oe Ae = ans - er an a ae S20 19

19. Hydrotheca small to medium (under 0,7 mm in abcauline height), abcauline edge
produced and margin tilted towards adcauline side, adcauline free part weakly
annulated .. S. africana

— Hydrotheca large (over 0, Tn mm in Bpeauline height), abcauline edge not produced and
margin perpendicular to axis or tilted towards abcauline side, adcauline free part
smooth es _ oS ae au 2 ie et ee a va 220

20. Hydrotheca with a marked angle in adcauline wall; adcauline free part straight or
concave. Gonotheca annulated .. .. S. megista

— Hydrotheca with adcauline wall curved ‘smoothly outwards, adcauline free part
convex. Gonotheca smooth 50 i oe Be BS ae S. leiocarpa

Sertularella africana Stechow, 1919

Fig. 91A—C
Sertularella fusiformis: Warren, 1908: 295, fig. SC—D.
Sertularella africana Stechow, 1919b: 83. Stechow 1923c: 179, fig. V. Millard, 1957: 207,

figs 101, 11F.

Diagnosis. Stem stiff, short, unfascicled, unbranched or at most with a few
short branches, reaching 18 mm in height; divided into internodes by oblique
nodes sloping in alternate directions, each internode bearing one hydrotheca;
usually with an annulation above each node.

Hydrotheca small, adnate for about half adcauline length, with weak
transverse annulations on free part of adcauline wall, with abcauline margin
and tooth produced so that margin is tilted towards adcauline side, abcauline
wall more or less straight, adcauline wall convex, 0,4-0,6 mm in abcauline
height and 0,18-0,3 mm in diameter. No internal teeth.

Gonothecae borne on front of stem immediately below the hydrothecae,
ovate, annulated, male with three distinct marginal spines and narrow aperture,
female with less distinct spines, wider aperture and external marsupium.

Variation. Although most hydrothecae conform to the characteristic shape,
those near the base of the stem are often nearly symmetrical in side view, with
the margin perpendicular to the axis, thus approaching the shape of S. fusiformis.
Sometimes a few hydrothecae of a colony have the abcauline wall of the hydro-
theca slightly bent out, which also causes the margin to be perpendicular to the
axis. The adcauline annulations are variable and may extend all round the wall,
or be absent altogether in certain (generally older) hydrothecae.

The gonothecae vary in the extent and number of the annulations, and may
rarely have only two, or as many as four, marginal spines.

Distribution. Endemic to South Africa. Type locality: Park Rynie, Natal.

Distribution in South Africa. Lambert’s Bay to Natal, littoral to 27 m. One of the
few hydroids which is fairly common in the littoral region. 32/18 (s), 33/17 (J),
33/18 (I), 34/18 (1, s), 34/21 (1), 33/25 (1, s, on turtle), 33/27 (1), 32/28 (1), 30/30
(I)

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 279

Sertularella agulhensis Millard, 1964
Fig. 91D-E
Sertularella agulhensis Millard, 1964: 35, fig. 12A.

Diagnosis. Stem stiff, fascicled, branched or unbranched, giving off alternate or
subalternate hydrocladia in one plane, reaching 82 mm in height. Hydrocladia
arising from immediately below hydrothecae. Stem and hydrocladia divided
into internodes by oblique nodes sloping in alternate directions, but nodes often
indistinct in older parts; each internode bearing one hydrotheca.

Hydrotheca of medium size, adnate for about half adcauline length,
annulated, with about six transverse annulations continued all round wall,
abcauline wall more or less straight, with margin more or less perpendicular to
axis and not particularly narrowed, 0,5-0,7 mm in abcauline height and 0,2-
0,3 mm in marginal diameter. Three small internal teeth, one abcauline and two
latero-adcauline.

Gonotheca unknown.

Variation. The hydrocladia are usually alternate, arising below every third
hydrotheca, but sometimes subalternate, arising below every first and third
hydrotheca. Other variations may also occur.

The abcauline side of the thecal margin is sometimes more produced than
the rest, with the result that the margin may be tilted slightly towards the
adcauline side. There may or may not be a slight concavity in the abcauline wall.
The internal teeth are constant in number and position, but may vary in size,
e.g. the latero-adcauline teeth may be smaller than the abcauline and vice
versa.

Distribution. Endemic to South Africa. Type locality: Agulhas Bank, 34°51’S/
SESS 13, 2A iam,

Distribution in South Africa. False Bay and Agulhas Bank south of Cape
Agulhas, 22-42 m, rare. 34/18 (s), 34/19 (s)

Sertularella annulaventricosa Mulder & Trebilcock, 1915
Fig. 91 F-H
Sertularella tenella: Hartlaub, 1901a: 64 (pp., material from Algoa Bay), pl. 5 (fig. 24).
Sertularella annulaventricosa Mulder & Trebilcock, 1915: 54, pl. 7 (fig. 1), pl. 8 (figs 44a).
Watson, 1973: 172, fig. 23.
Sertularella undulata Bale, 1915: 285, pl. 46 (fig. 1).
Sertularella capensis delicata Millard, 1964: 38, fig. 12B—D.
Diagnosis. Stem unfascicled, unbranched, short and slender, geniculate, reaching
5 mm in maximum height; divided into internodes by oblique nodes sloping in
alternate directions, each internode bearing one hydrotheca; with not more
than eight hydrothecae and often only one; generally annulated at base and in
region of nodes.

Hydrotheca small, adnate for under ha:f adcauline height, with one, or

280 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 91.
Sertularella africana. A, hydrothecae; B, stem; C, male gonotheca.
Sertularella agulhensis. D, hydrothecae; E, stem.
Sertularella annulaventricosa; F, solitary hydrotheca and upright stem; G and H, solitary
hydrothecae.
Sertularella arbuscula. J, stem; K, hydrothecae; L, gonotheca.
Scale: B, E and J in cm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 281

occasionally two, sharply ridged annulations continued all the way round free
part, barrel-shaped with margin perpendicular to axis, 0,3—-0,5 mm in abcauline
height and 0,3 mm in marginal diameter. No internal teeth. Mouth wide, its
diameter only slightly less than the widest part of the hydrotheca, round in
section.

Gonotheca unknown.

Variation and remarks. The stem is always delicate, but varies in the length
of internode and amount of annulation. Stems with only one hydrotheca are
common; these can be distinguished from the genus Calamphora by the extension
of the growing point of the internode behind the hydrotheca.

This material was originally described as a subspecies of S. capensis, to
which the hydrotheca shows a similarity. However, the growth-form is different
and Mrs J. Watson was kind enough to draw my attention to the resemblance to
S. annulaventricosa, with which it has now been synonymized.

Distribution outside South Africa. South Australia and Tasmania. Type locality:
Queenscliff, Australia.

Distribution in South Africa. Port Elizabeth to Durban in 47-53 m. 33/25,
32/28 (s), 31/29 (s), 29/31 (s)

Sertularella arbuscula (Lamouroux, 1816)
Fig. 91J—L

Sertularia arbuscula Lamouroux, 1816: 191, pl. 5 (fig. 4).
Sertularella crassipes Allman, 1886: 133, pl. 8 (figs 4-5).
Sertularella arbuscula: Millard, 1957: 208, figs 10B, 11C. Millard, 1964: 37.
Diagnosis. Stem stiff, fascicled, branching irregularly near base but pinnately
and in one plane near extremities, reaching 300 mm in height. Hydrocladia
arising from immediately below hydrothecae, the two rows in one plane. Stem
and hydrocladia divided into short internodes by oblique nodes sloping in
alternate directions, each internode bearing one hydrotheca.

Hydrotheca small to medium, adnate for about half adcauline length,
smooth, with axis distinctly bent outwards and margin tilted towards abcauline
side, 0,4-0,6 mm in abcauline height and 0,15—0,3 mm in marginal diameter.
Three internal teeth, one abcauline and two latero-adcauline.

Gonothecae borne on stem and hydrocladia immediately below the hydro-
thecae, spindle-shaped, quite smooth or (occasionally) annulated in distal half;
margin with a variable number of short spines.

Variation. Once known this common species is easily recognized in spite of
much variability. Occasionally the ‘outward bend’ in the hydrotheca is not so
marked as usual and occasionally the abcauline side of the margin is slightly
produced. Neither variation is sufficiently marked to prevent the perpendicular
passing through the adcauline wall, and both are usually limited to a few hydro-
thecae of a colony. The width of the thecal mouth is variable and a form with

Doo ANNALS OF THE SOUTH AFRICAN MUSEUM

an extra narrow mouth often occurs, a variation usually common to all hydro-
thecae of a colony. The internode length and amount of adcauline thecal wall
which is adnate to the internode are likewise variable. The internal thecal teeth
are constant in position, though occasionally they may be missing in a few hydro-
thecae of a colony with thin perisarc or in very old hydrothecae. Two small acces-
sory internal teeth, one on each side of the abcauline one, commonly occur,
and the abcauline wall may be thickened below the level of the abcauline tooth.

The smooth gonotheca is most characteristic, but occasional examples
occur with corrugated or annulated walls, both in the male and in the female.
The width of the mouth and the number of marginal spines are variable. Some
gonothecae bear an external marsupium.

Distribution outside South Africa. Australasia, southern and western Indian
Ocean, Vema Seamount. Type locality: Australasia.

Distribution in South Africa. Very common round most of the coast from
Saldanha Bay to Mocambique, littoral to 219 m. 33/17 (s), 33/18 C, s), 34/18
(s), 34/20 (s), 35/20 (),. 34/21 (s), 35/21 (d), 34/22 (s), 35/22 @s 34/23nGae):
34/24 (d), 33/25 (s), 34/25 (s), 33/26 (s), 34/26 (d), 33/27 (s), 33/28 (s), 32/28
(s), 32/29. (d), 31/29 (s),-31/30 (Ss), 30/30 G), 30/31 G, d), 29/31 G aR297321G):
28/32 (s, d), 26/32 (s), 24/35 (s, d)

Sertularella capensis Millard, 1957
Fig. 92H-K

Sertularella capensis Millard, 1957: 210, fig. 10H.
Sertularella capensis capensis: Millard, 1964: 38, fig. 12F.
Diagnosis. Hydrorhiza profuse and tangled, not firmly attached to substratum.
Stem unfascicled, flexuous and straggling, branching irregularly, with a tendency
towards stolonization resulting in a tangled mass reaching 40 mm in height;
divided into internodes by oblique nodes sloping in opposite directions, each
internode bearing one hydrotheca. Branches arising from below hydrothecue,
similar to stem.

Hydrotheca small, adnate for half adcauline height or a little more, with
1-3 (usually 2) sharply ridged annulations continued all the way round free part,
fusiform, with margin generally perpendicular to axis, but sometimes tilted
slightly towards abcauline side, 0,4-0,5 mm in abcauline height and 0,2-0,3
mm in marginal diameter. No internal teeth. Mouth wide, its diameter only
slightly less than the widest part of the hydrotheca.

Gonothecae borne on front of stem immediately ‘below nydrothecae,
elongate-oval, annulated throughout, with up to 16 narrow, ridged annulations.
Margin with four or more spines. No external marsupium.

Variation and remarks. The appearance of the stem is variable and subject to
abnormalities resulting from stolonization. It may be straight or geniculate,
and there may be a suggestion of an annulation immediately above and below

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 283

each node. The gonotheca may have as many as seven marginal spines.

The hydrotheca is similar to that of Sertularia annulata Allman, 1888
(=Sertularella gayi var. annulata), but the growth-form is different, the latter
species haying a stiff and fascicled stem. It also shows resemblances to
S. tenella (Alder, 1856), but differs in the wider mouth, smaller number of annu-
lations and larger proportion of wall adnate. It might possibly be included as
a variety*of S. polyzonias, but lacks the concave abcauline wall of the latter.

Distribution. Endemic to South Africa. Type locality: False Bay, 27-28 m.

Distribution in South Africa. False Bay, and Agulhas Bank in the East London
area, 27-58 m. 34/18 (s), 33/27, 33/28 (s), 32/28 (s)

Sertularella congregata Millard, 1964
Fig. 92D-G
Sertularella congregata Millard, 1964: 39, fig. 13A—D.

Diagnosis. Stem stiff, fascicled, branched or unbranched, giving off alternate
hydrocladia in one plane, reaching 70 mm in height. Hydrocladia arising from
immediately below every third hydrotheca of stem, alternately on right and left.
Stem and hydrocladia typically divided into short internodes by oblique nodes
sloping in alternate directions, each internode bearing one hydrotheca, but
hydrothecae crowded and overlapping in distal parts of hydrocladia where
also nodes are not visible.

Hydrotheca small, adnate for half or more adcauline length, smooth,
axis straight in basal half and curved outwards in distal half, margin tilted
towards abcauline side, walls practically parallel, 0,4-0,5 mm in abcauline
height and 0,19-0,2 mm in marginal diameter. No internal teeth. A perisarcal
thickening present on abcauline wall and continued half-way round wall as a
ridge below margin.

Gonotheca borne on anterior surface of hydrocladium next to the base of
a hydrotheca, spindle-shaped, with about eight low annulations in distal region;
margin with five short spines.

Variation. The stem may be simple and pinnate, or spreading and fan-shaped
in which case one or more hydrocladia are replaced by long, fascicled and pin-
nate branches.

The interval between successive hydrothecae is variable. The latter are
moderately well spaced on the stem, with the margin of one just overreaching
the base of the next on the opposite side, but very close-set towards the distal
parts of the hydrocladia, with the margin of one sometimes reaching the base
of the next on the same side. Nodes may be completely invisible (in fascicled
parts of stem and crowded regions of hydrocladia) or quite distinct. The shape
and structure of the hydrotheca is very constant in the specimens known, though
it'is possible that the thickening on the abcauline thecal wall may, as in many
other species, be a variable feature.

284 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 92.

Sertularella flabellum. A, hydrothecae; B, gonotheca; C, colony.
Sertularella congregata. D, part of stem and hydrocladium; E, gonotheca; F, stem;
G, hydrothecae.
Sertularella capensis. H, hydrothecae; J, gonotheca; K, colony.
Scale: C, F and K in cm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 285

Distribution. Endemic to South Africa. Type locality: Agulhas Bank, 33°7,3’S/
28°1'E, 88 m.

Distribution in South Africa. Two records only from the same area on the
Agulhas Bank, 86-88 m. 33/28 (s)

Sertularella diaphana (Allman, 1886)
Fig. 93A—D

Thuiaria diaphana Allman, 1886: 145, pl. 18 (figs 1-3).
Sertularella diaphana: Billard, 1925a: 157, fig. 22, pl. 7 (figs 12-13). Millard, 1958: 188, fig.
7C-D.

Diagnosis. Stem thick and fascicled, branching profusely and irregularly,
reaching 150 mm in height. Final branches pinnate, giving rise to alternate
hydrocladia which are more or less in one plane. Stem and branches divided
into internodes by oblique nodes sloping alternately to left and right; each
internode bearing three hydrothecae and one hydrocladium, the latter arising
just below the third hydrotheca. Hydrocladium with distant oblique nodes and a
variable number of hydrothecae to an internode. The two rows of hydrothecae
on stem, branches and hydrocladia not in one plane but shifted onto the anterior
surface.

Hydrotheca completely adnate or very nearly so, smooth, curved out-
wards, with margin tilted towards abcauline side, 0,4-0,6 mm in adcauline height
and 0,2 mm in marginal diameter. Marginal teeth low. No internal teeth.

Gonothecae borne on the anterior surface of the hydrocladia, elongated,
tapering proximally, truncated distally, with faint longitudinal striations. No
external marsupium. No marginal spines.

Variation. Billard (1925a) distinguished several varieties of this species from the

Dutch East Indies, but all South African material belongs to the normal variety.
The perisarc is thin in the younger parts of the colony but heavier in older

parts, where the abcauline thecal wall is thickened just below the margin.

Distribution outside South Africa. Circumglobal in tropical and subtropical
waters. Type locality: Moreton Bay, Queensland, Australia.

Distribution in South Africa. Coasts of Natal and Mocambique from Durban
northwards, 12-64 m. 30/30 (s), 29/31 (s), 26/32 (s), 25/33 (s)

Sertularella dubia Billard, 1907
Sertularella dubia Billard, 1907a: 344, fig. 3, pl. 25 (fig. 1).

Diagnosis. Stem stiff, fascicled, branched, giving off alternate hydrocladia in
one plane. Hydrocladia arising from immediately below every third hydrotheca,
alternately on right and left. Stem and hydrocladia divided into internodes by
poorly marked oblique nodes sloping in alternate directions, each internode
bearing one hydrotheca.

286 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 93.

Sertularella diaphana. A, stem; B, gonotheca; C, part of stem with origins of hydrocladia;
D, hydrothecae.
Sertularella fusiformis. E, fertile colony; F, male gonotheca; G, hydrothecae (form with
crowded hydrothecae).
Scale: A and E in cm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 287

Hydrotheca small to medium, adnate for about half adcauline height,
usually smooth, adcauline wall curved or bent outwards, abcauline wall straight
or slightly concave; margin usually tilted towards abcauline side, narrowed.
No internal teeth. A perisarcal thickening present on abcauline wall at about
two thirds height.

Distribution. Macalonga, Mocambique, 22 m (type locality).
Only the following subspecies present in South Africa.

Sertularella dubia magna Millard, 1958
Fig. 94A—F

Sertularella dubia var. magna Millard, 1958: 189, fig. 7A.
Sertularella dubia magna: Millard, 1964: 41, fig. 14A—F.
Diagnosis. Similar to nominal subspecies but of larger dimensions, hydrotheca
over 0,45 mm in abcauline height (0,5-0,7 mm) and over 0,20 mm in marginal
diameter (0,2—0,3 mm). Stem reaching 135 mm in height.

Gonotheca (not known in the nominal subspecies) borne on hydrocladium
immediately below hydrotheca, spindle-shaped, annulated in distal region;
margin with a variable number of short spines.

Variation. The internode length varies, so that the hydrothecae may be well
spaced or set fairly close together. Nodes are visible only in the young parts of
the colony.

The hydrothecae are very variable in shape and appearance. They may
have light corrugations on the free part of the adcauline wall and thus resemble
those of S. gayi, or the abcauline marginal tooth may be elongated, with the
result that the margin may be tilted towards the adcauline side. All intermediate
forms may occur. More heavily chitinized hydrothecae have a very distinct
abcauline perisarcal thickening, but this is scarcely noticeable in lightly built
colonies and young hydrothecae.

Remarks. The general appearance and growth-form are similar to those of
S. arbuscula and S. gayi. From the former it is distinguished by the absence of
internal teeth, and from the latter by the nature of the gonotheca (bilabiate in
S. gayi).

Some specimens show resemblances to S. crassicaulis, but can be disting-
uished from it by the method of growth (dichotomous in S. crassicaulis).

Distribution. Endemic to South Africa. Type locality: off Cone Point, Natal,
62 m.

Distribution in South Africa. False Bay to northern Natal on the east, 27-232 m.
34/18 (s), 34/21 (s), 33/25 (s), 34/25 (d), 33/27 (s), 33/28 (s), 32/28 (s), 30/30 (s),
50) Si (S) e292) SiGe) 29) S28). 28/32 (Ss, a)

288 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 94.

Sertularella dubia magna. A-D, hydrothecae; E, gonotheca; F, stem.
Sertularella gilchristi. G, stem; H, gonotheca; J, hydrothecae.
Scale: F and G in cm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 289

Sertularella flabellum (Allman, 1886)
Fig. 92A—C

Thecocladium flabellum Allman, 1886: 149, pl. 19 (figs 4-5). Allman, 1888: 81, pl. 38.
Sertularella flabellum: Billard, 1910: 12, fig. 4. Millard, 1957: 212, figs 10G, 11G.
Diagnosis. Hydrorhiza attached at intervals only. Stem unfascicled, unbranched
or branching irregularly, with branches always arising from within hydrothecae,
reaching 99 mm in height. Stem and branches similar, in one plane, with distant
nodes and a variable number of hydrothecae to each internode. The two rows
of hydrothecae in one plane.

Hydrotheca adnate for two-thirds of adcauline height or more, smooth,
curved outwards, with margin tilted towards abcauline side, 0,4-0,5 mm in
abcauline height and 0,2-0,4 mm in marginal diameter. Marginal teeth low.
No internal teeth.

Gonothecae borne on stem immediately below hydrothecae, pear-shaped,
strongly annulated. No external marsupium. No marginal spines.

Variation. This species is easily recognized by its characteristic growth-form.
Both stems and branches have a strong tendency towards stolon formation.
The hydrothecae may be closely set, so that the margin of one almost overlaps
the base of the next on the same side, or may be much more distant, when
two hydrothecae on the same side are separated by a distance equal to their own
length.

The hydrotheca normally has a thin perisarc, but may be thickened at
the margin and at the point where the abcauline caecum attaches. There is a
marked tendency towards regenerated margins.

The gonotheca is annulated to a varying degree. The annulations normally
extend from the distal end downwards for about two-thirds of the length, but
may reach almost to the base.

Distribution. Endemic to South Africa and the Vema Seamount. Type locality
unknown.

Distribution in South Africa. Common from Saldanha Bay on the west round
the south coast to Richard’s Bay on the east, 10-232 m. 33/17 (s), 33/18 (s),
34/18 (s), 34/19 (s), 34/20 (s), 34/21 (s), 35/21 (d), 34/22 (s), 35/22 (d), 34/23
(d), 33/25 (s), 34/25 (s, d), 33/26 (s, d), 33/27 (s), 32/28 (s), 30/30 (s), 30/31 (s),
29/31 (d)

Sertularella fusiformis (Hincks, 1861)
Fig. 93E-G

Sertularia fusiformis Hincks, 1861: 253, pl. 6 (figs 7-8).
Sertularella lineata: Stechow, 1925a: 469, fig. 29.
Sertularella fusiformis forma glabra Broch, 1933: 69, fig. 27.
Sertularella fusiformis: Millard, 1957: 213, fig. 10C—E.

Diagnosis. Stem short and stiff, unfascicled, unbranched or with at most one or
two short branches, reaching 22 mm in height. Branches, when present, arising

290 ANNALS OF THE SOUTH AFRICAN MUSEUM

from below hydrothecae. Stem and branches divided into internodes by oblique
nodes sloping in alternate directions, each internode bearing one hydrotheca.

Hydrotheca small to medium, adnate for 3-} adcauline length, smooth
or faintly annulated, generally symmetrical and flask-shaped in side view, with
margin perpendicular to axis, 0,4-0,6 mm in abcauline height and 0,17-0,3 mm
in marginal diameter. Four small and delicate internal teeth of which one or
more may be missing, alternating with marginal teeth.

Gonotheca borne on front of stem immediately below hydrotheca, spindle-

shaped, annulated at least in distal half; margin narrow, with three or four
spines.
Variation. This small species is common as an epizooite on other hydroids.
The stem may be geniculate or quite straight, and often has one or more distinct
annulations at the base of each internode. The two rows of hydrothecae may be
in one plane, or displaced onto one surface of the stem. The hydrothecae may be
well separated or overlapping.

In the hydrotheca the most common variations are an elongation of the
abcauline margin and tooth, and a bending out of the abcauline wall. Since
both variations usually occur together, the line drawn perpendicular to the
margin may be displaced so that it passes through the adcauline wall or, rarely
in the other direction, so that it passes through the hydropore. The abcauline
wall may be convex, straight, or slightly concave. The wall is normally quite
smooth, but occasionally shows faint indications of transverse annulations, but
never as pronounced as in f. ornata Broch. The internal teeth are constant in
size and position, but the full complement of four is not always present. There
may be a low thickening on the abcauline wall below the level of the internal
teeth.

Remarks. This is one of the more difficult ‘intergrading’ species and shows
variations in thecal shape approaching the polyzonias type (with concave abcau-
line wall), and the africana type (with straight, elongated abcauline wall). The
form with overlapping hydrothecae is reminiscent of S. congregata. The cri-
terion for identification is taken to be the presence of small internal teeth, which
always alternate with the marginal teeth. Thus, even though some teeth are
missing, the species can be distinguished from the three-toothed ones by the
position.

Distribution outside South Africa. North Atlantic and Mediterranean, with one
record from the west coast of North America. Type locality: South Devon, U.K.

Distribution in South Africa. Lambert’s Bay to East London, littoral to 70 m.
32/18 (1), 33/17 (1), 33/18 (1, s), 34/18 (1, s), 34/22 (s), 33/27, 32/28 (s)

Sertularella gilchristi Millard, 1964
Fig. 94G_-J
Sertularella gilchristi Millard, 1964: 44, figs. 12E, G-H.
Diagnosis. Stem stiff, fascicled, branching and rebranching profusely in an

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 291

irregular pinnate fashion and usually in one plane, reaching 69 mm in height.
Final branches (hydrocladia) arising from immediately below hydrothecae
with irregular spacing. Stem and hydrocladia divided into internodes by oblique
nodes sloping in alternate directions, but nodes indistinct in older parts; each
internode bearing one hydrotheca.

Hydrotheca small, adnate for just under half adcauline length, annulated,
with three or more transverse annulations usually continued all round wall,
fusiform and usually slightly curved outwards, markedly narrowing to margin,
with margin tilted towards abcauline side, 0,3—-0,4 mm in abcauline height and
0,11-0,14 mm in marginal diameter. Three internal teeth, one large abcauline
and two smaller latero-adcauline.

Gonothecae borne on hydrocladia immediately below hydrothecae,
spindle-shaped, annulated, with very narrow opening and three or (rarely)
four sharp marginal spines.

Variation. The general effect of the colony is bushy, for branching is not always
strictly in one plane. The two rows of hydrothecae are usually in One plane, but
may be slightly offset to one surface. A spiral annulation may or may not be
present above each node. The internode length is variable.

The amount of annulation on the hydrotheca is variable, and may be
indistinct or confined to the adcauline side. The hydrotheca is sometimes
quite symmetrical, but is more typically bent outwards and the margin tilted
towards the abcauline side. Rare hydrothecae may occur in which the mouth is
less narrow. The internal teeth are constant in position, and always well
developed, and in many hydrothecae two minute extra ones occur, one on each
side of the median abcauline one.

Distribution. Endemic to South Africa. Type locality: Agulhas Bank, 33°3’S/
Die) ie D1, 11.

Distribution in South Africa. Agulhas Bank, in the Port Elizabeth—East London
area, 27-90 m. Rare. 34/25 (s), 33/27 (s)

Sertularella goliathus Stechow, 1923
Fig. 9SA—C

Sertularella goliathus Stechow, 19236: 112. Stechow, 1925a: 481, fig. 37. Millard, 1957: 215,

figs 10A, 11A.
Diagnosis. Stem stiff and fascicled, giving off hydrocladia in an irregularly
pinnate fashion, reaching 79 mm in height. Hydrocladia arising from
immediately below hydrothecae, the two rows in one plane. Stem and hydro-
cladia divided into short internodes by oblique nodes sloping in alternate direc-
tions, but nodes indistinct in older parts; each internode bearing one hydro-
theca.

Hydrotheca large, adnate for about two-thirds adcauline length, smooth,
adcauline wall bent sharply outwards at top of adnate part, margin perpendicular

292 ANNALS OF THE SOUTH AFRICAN MUSEUM

to axis, abcauline and free part of adcauline wall slightly concave, margin
narrow; 0,9-1,1 mm in abcauline height and 0,3-0,4 mm in marginal diameter.
Three large internal teeth, one adcauline and two latero-abcauline.

Gonothecae borne on hydrocladial internodes on the same level as, and
on the opposite side to, the base of the hydrotheca, spindle-shaped, with about
five rounded annulations; margin with three spines.

Variation. Although the mature colony is fascicled, young stems are unfascicled
and often without hydrocladia.

Although the thecal margin is normally perpendicular to the axis, slight
deviations to either side may occur, so that the perpendicular may pass through
the lower part of the adcauline wall or through the hydropore. Usually the
free part of the adcauline wall is at right angles to the internode, but the angle
may be smaller than this, particularly at the distal ends of hydrocladia. Internal
teeth are always present, and constant in number and position.

The gonotheca may have as few as three annulations restricted to the distal
end, but this is rare.

Distribution. Endemic to South Africa. Type locality: Agulhas Bank.

Distribution in South Africa. West coast of Cape Peninsula to Mossel Bay in
8-155 m. 34/18 (s), 34/20 (s), 35/20 (d), 34/21 (s), 35/22 (d)

Sertularella leiocarpa (Allman, 1888)
Fig. 95D-F
Sertularia leiocarpa Allman, 1888: 52, pl. 25 (fig. 1—-1a).
Sertularella leiocarpa: Stechow, 1925a: 477, fig. 35. Vervoort, 19665: 128, figs 31-32. Millard,

1968: 269, fig. 4A-C.

Diagnosis. Stem moderately stiff (just able to support itself out of fluid), unfas-
cicled or lightly fascicled at base, giving off roughly alternate hydrocladia in
one plane, reaching 42 mm in height. Hydrocladia arising from immediately
below hydrothecae. Stem and hydrocladia divided into fairly long and slender
internodes by oblique nodes sloping in alternate directions, but nodes indistinct
in older parts; each internode bearing one hydrotheca.

Hydrotheca tubular, adnate for 4-4 adcauline length, smooth, curving
gently outwards, with straight or concave abcauline wall and smoothly convex
adcauline wall, narrowing markedly to mouth, margin tilted towards abcau-
line side, 0,7—1,2 mm in abcauline height and 0,2-0,4 mm in marginal diameter.
Usually without internal teeth.

Gonothecae borne on stem on the same level as, and on the opposite side
to, the base of the hydrotheca, spindle-shaped, completely smooth; margin
with three or four short spines.

Variation. A few hydrothecae show very faint traces of annulation on the free
part of the adcauline wall. Although normally there are no internal teeth, one
of the larger colonies has minute internal teeth in some hydrothecae only, either

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 293

van

Fig. 95.

Sertularella goliathus. A, gonotheca; B, hydrothecae; C, stem (somewhat damaged).
Sertularella leiocarpa. D, hydrotheca; E, part of colony; F, part of stem with hydrothecae
and gonotheca.
Scale: C and E in cm, A and F in mn, the rest in mm/10.

294 ANNALS OF THE SOUTH AFRICAN MUSEUM

two latero-adcauline, or two latero-adcauline plus one abcauline. Vervoort
reports traces of four internal teeth in some hydrothecae of his material. This is
a species in which the presence or absence of internal teeth is variable.

Distribution outside South Africa. South Atlantic and southern Indian Ocean.
Type locality: Nightingale Island, 183-274 m.

Distribution in South Africa. A deep-water species. Scattered records from the
west coast of the Cape Peninsula, Agulhas Bank, Natal and Mocambique,
200-595 m. 34/18 (); 35/22 (d, vd), 29/31 @), 25/35 (vd)

Sertularella mediterranea Hartlaub, 1901

Sertularella mediterranea Hartlaub, 190la: 86, pl. 5 (figs. 10-11, 15-16). Billard, 1922: 107,
figs 3-4. Stechow, 1923c: 189, 192, figs C1, Dta. Millard, 1957: 215, figs 10E, 11B.

Sertularella ellisi f. mediterranea: Patriti, 1970: 38, fig. 49.

Diagnosis. Stem stiff, unfascicled, unbranched or with a few irregular branches,

divided into internodes by oblique nodes sloping in alternate directions, each

internode bearing one hydrotheca. Branches similar to stem.

Hydrotheca smooth, narrowing to mouth; with more or less straight abcau-
line wall and double curvature in adcauline wall, first convex, then concave;
with abcauline margin and tooth typically produced and margin thus tilted
towards stem. Three strong internal teeth, one abcauline and two latero-
adcauline.

Gonothecae borne on the stem opposite the bases of the hydrothecae,
spindle-shaped, annulated in distal half to a varying degree, with three or four
marginal spines and distinctly narrowed just below them.

KEY TO SUBSPECIES

1. Hydrotheca bilaterally symmetrical, with lateral teeth equally developed; adnate for
not less than 3 adcauline length .. S. m. mediterranea
— Most of the hydrothecae with right and ‘left margins not symmetrical, one lateral
tooth being larger than the other. Hydrotheca adnate for not more than ? adcauline
length .. ee ae 84 ee Als ae is is S. m. asymmetrica

Sertularella mediterranea mediterranea Hartlaub, 1901
Fig. 96B—C

Diagnosis. Stem occasionally branched, reaching a maximum height of 34 mm,
but more often less than 20 mm; the two rows of hydrothecae in one plane.

Hydrotheca bilaterally symmetrical, with the two lateral marginal teeth
the same size, adnate for 2-3 adcauline height, 0,5-0,9 mm in abcauline height
and 0,19-0,4 mm in marginal diameter.

Variation. Branches, when they occur, show no uniformity in origin. They may
arise from below the hydrothecae, from the anterior surface of the stem or from
within the hydrothecae.

In the classical conception of the species the hydrotheca has a well developed

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 295

abcauline marginal tooth and a margin tilted towards the stem, but this is not
a constant character and in some colonies the teeth are of equal size and the
margin perpendicular to the axis, so that the perpendicular passes through the
hydropore or through the adcauline basal thickening, but never through the
adcauline wall as in the closely related S. natalensis. The width of the hydro-
thecal margin varies and occasional hydrothecae have particularly narrow
mouths. The three internal teeth of South African specimens are very constant
in size and position; sometimes two minute extra ones occur, one on each side
of the abcauline one. In only one hydrotheca of one colony were four internal
teeth seen, the abcauline tooth being replaced by two small ones. Variation in
the number of internal teeth has been reported for specimens from the
Mediterranean and other areas.

Distribution outside South Africa. Mediterranean and Red Sea, east coast of
Atlantic as far south as the Vema Seamount and Angola with scattered reports
from the Indian Ocean and Australasia. Type locality: Rovigno.

Distribution in South Africa. West coast of Cape Peninsula to Natal, littoral to
73 m. 33/18 (1), 34/18 (s), 34/23 (s), 33/25 (s), 30/30 (1), 29/31 (1, s), 28/32 (s)

Sertularella mediterranea asymmetrica Millard, 1958
Fig. 96A

Sertularella mediterranea, var. asymmetrica Millard, 1958: 191, fig. 7B.

Diagnosis. Stem unbranched, reaching a maximum height of 14 mm, the two
rows of hydrothecae not in one plane but shifted on to anterior surface.
Hydrotheca not bilaterally symmetrical but with one of the lateral marginal
teeth distinctly longer than the other, smaller and less adnate than the nominate
subspecies, adnate for 4-2 adcauline height, 0,3-0,6mm in abcauline height
and 0,14-0,2 mm in marginal diameter.
Female gonotheca with external marsupium.

Distribution. Endemic to South Africa. Type locality: Inhaca Island, Delagoa
Bay, littoral.

Distribution in South Africa. South coast from Mossel Bay to East London and
Inhaca Island, littoral to 46 m. 34/22 (1), 33/27 (s), 26/32 (1, s)

Sertularella megista Stechow, 1923
Fig. 97A—D
Sertularella megista Stechow, 1923b: 111. Stechow, 1925a: 480, fig. 36. Millard, 1957: 217,
figs 10L, 11J. Millard, 1964: 45. Millard, 1967: 180, fig. 4D.
Diagnosis. Stem moderately stiff (just able to support itself out of fluid), unfas-
cicled or lightly fascicled at base, unbranched or giving off a few long branches
at irregular intervals, reaching 140 mm in height. Branches arising from
immediately below hydrothecae, the two rows in one plane. Stem and branches

296 ANNALS OF THE SOUTH AFRICAN MUSEUM

G

9
7,

Fig. 96.

Sertularella mediterranea. A, subsp. asymmetrica, hydrothecae; B, nominal subsp.,
hydrothecae; C, nominal subsp., male gonotheca.
Sertularella natalensis. D, gonotheca; E, hydrotheca; F, part of stem.
Sertularella pulchra. G, hydrothecae; H, gonotheca; J, stem.
Scale: J in cm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 297

divided into short internodes by oblique nodes sloping in alternate directions, but
nodes indistinct in older parts; each internode bearing one hydrotheca.

Hydrotheca large, with thick perisarc, adnate for $-? adcauline length,
smooth, adcauline wall bent sharply outwards at top of adnate part, margin
more or less perpendicular to axis, free part of adcauline wall straight or con-
cave, never convex; 0,8-1,9 mm in abcauline height and 0,3-0,6 mm in marginal
diameter. No internal teeth.

Gonothecae borne on stem or branches on the same level as, and on the
opposite side to, the base of the hydrotheca, spindle-shaped, with about five

rounded annulations; margin with three or four pointed spines.

Variation. Individual stems and branches of this species are easily recognized,
though the form of the colony as a whole varies. There is a tendency to produce
long unfascicled and unbranched stems or sections thereof. This is possibly
characteristic of sheltered waters, whereas shorter, fascicled, and more branched
colonies may be characteristic of exposed waters.

The shape of the hydrotheca varies between two extremes; one which is
adnate for over half the length and with a comparatively short free portion,
and one where the free part is much produced and may be twice as long as the
adnate part (forma e/ongata). In the latter the free part has practically parallel
walls but the mouth is no narrower than in the normal form.

Variation also occurs in the degree of bending in the adcauline wall,
and in the angle of the margin. A line drawn at right angles to the latter may
pass through the hydropore or through the adcauline wall. Rarely the free part
of the adcauline wall may be faintly corrugated.

The annulation of the gonotheca varies and may be more pronounced or
very indistinct.

Distribution outside South Africa. Vema Seamount. Type locality: Francis Bay,
South Africa, in 100 m.

Distribution in South Africa. All round coast from St. Helena Bay to Mocgam-
bique, 0-347 m. 32/18 (s), 33/18 (s), 34/18 (s), 34/21 (s), 36/21 (d), 34/22 (s),
34/23 (s, d), 34/24 (d), 33/25 (s), 34/25 (s, d), 33/26 (d), 34/26 (d), 33/27 (s),
32/28 (s), 33/28 (s), 30/30 (s), 30/31 (s, d), 29/31 (s, d), 29/32 (s), 28/32 (d),
24/35 (d)

Sertularella natalensis Millard, 1968
Fig. 96D-F
Sertularella natalensis Millard, 1968: 271, fig. 4E-G.
Diagnosis. Stem stiff, unfascicled, unbranched or with at most one branch,
reaching 34 mm in height, divided into internodes by oblique nodes sloping in
alternate directions, each internode bearing one hydrotheca. Branches similar to

stem.
Hydrotheca of medium size, adnate for 4-3 adcauline length, free part

298 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig: 97:

Sertularella megista. A, colony: B, hydrothecae; C, hydrotheca of forma elongata; D, male
gonotheca.
Sertularella striata. E, stem and hydrothecae; F, gonotheca.
Scale: A in cm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 299

directed outwards and narrowing to just below the margin, generally with one
to four vertical striations which start on free part of adcauline wall and run for
a varying distance parallel to adnate wall, 0,5-0,7 mm in abcauline height and
0,2-0,3 mm in marginal diameter. Margin tilted towards abcauline side. Five
or three internal teeth, one very large abcauline, two large latero-adcauline and
sometimes two minute latero-abcauline.

Gonothecae borne on stem opposite the bases of the hydrothecae, spindle-
shaped, annulated in distal half, with three or four marginal spines.

Variation. The striations on the hydrothecal wall are characteristic of the species
and always occur in some hydrothecae of a colony. They may be faint or absent
in other hydrothecae, particularly the older ones.

Distribution. Endemic to South Africa. Type locality: off Natal, 29°47,5’S/
31°12’E, 64 m.

Distribution in South Africa. Natal and Mocgambique, 1-64 m. 29/31 (s), 26/32
(s), 25/33 (s), 24/34 (s)

Sertularella polyzonias (Linnaeus, 1758)

Sertularia polyzonias Linnaeus, 1758: 813.

Sertularella polyzonias: Hincks, 1868: 235, pl. 46 (fig. 1). Hartlaub, 1901a: 88, pl. 1 (fig. 10),
pl. 5 (figs 2-5, 8). Broch, 1933: 65, fig. 24. Stechow, 1923c: 194, fig. D'c. Millard, 1957:
217, figs 10J, 11H.

Diagnosis. Stem unfascicled or weakly fascicled, flexuous and straggling (unable

to support itself out of fluid), irregularly branched. No obvious distinction

between main stem and branches. Branches arising from below hydrothecae,
often rebranched. Stem and branches divided into internodes by oblique nodes
sloping in alternate directions, each internode bearing one hydrotheca.

Hydrotheca adnate for about half adcauline length, smooth, with distal
half curved outwards and margin tilted towards abcauline side, abcauline wall
concave in distal half. Internal teeth generally absent, occasionally four minute
ones alternating with marginal teeth.

Gonothecae borne on stem and branches from immediately below hydro-
thecae, elongate-spindle-shaped, annulated at least in distal half; margin with
about four spines; female with external marsupium, larger than male.

Remarks. The discovery that S. xantha may sometimes possess four internal
teeth means that the distinction between this species and S. falsa, which always
possesses internal teeth, falls away. Both are regarded as subspecies of
S. polyzonias. The distinction between subsp. xantha and subsp. polyzonias (both
normally without internal teeth) is mainly one of size, the former having long,
weakly fascicled stems and larger hydrothecae, the latter having short, unfas-
cicled stems and smaller hydrothecae. S. polyzonias from other parts of the world
is known to vary greatly in size, though fascicled stems have as yet not been
reported.

300 ANNALS OF THE SOUTH AFRICAN MUSEUM

There is some doubt as to the exact nature of S. polyzonias, since the type
material has never been re-examined and described. The authorities quoted
above give a fair indication of the present-day concept of the species.

KEY TO SUBSPECIES

1. Four minute internal teeth present, alternating with the marginal teeth .. Sep. false
— No internal teeth dy 5 ae ee oe a a re
2. Hydrotheca very large, over 1 mm in abcauline height .. 8 é S. p. gigantea
— Hydrotheca small to medium, under 1 mm in abcauline height a ES
3. Stem often weakly fascicled, reaching great lengths (generally over 30 mm and up to

270 mm) - ioe ae ay a ae boys oF bee S. p. xantha
Stem never fascicled, short (generally under 30 mm, never exceeding 50 mm)
S. p. polyzonias

Sertularella polyzonias polyzonias (Linnaeus, 1758)
Fig. 98F—H

Diagnosis. Stem slender, unfascicled, short (usually under 30 mm, maximum
height 48 mm), unbranched or branching sparsely, with a tendency towards
stolon formation.

Hydrotheca small to medium, 0,3—0,6 mm in abcauline height and 0,18-
0,3 mm in marginal diameter. No internal teeth.

Gonotheca under 2,3 mm in length, with 3-6 marginal spines.

Variation. This is the most delicate of the four subspecies and is a common
epizooite of other hydroids. The stem varies considerably in length of internode;
it is sometimes geniculate and sometimes not, and often has a distinct annulation
immediately above each node. The two rows of hydrothecae are usually in one
plane, but sometimes shifted on to one surface.

The hydrotheca sometimes has the abcauline margin and marginal tooth
slightly produced so that a line drawn perpendicular to the margin passes
through the adcauline basal thickening instead of through the adcauline wall,
thus approaching S. africana. Occasionally vague transverse corrugations occur,
as are also characteristic of the latter species. These variations, however, are
seen only in isolated hydrothecae of a colony. The width of the mouth is variable
within a colony.

Distribution. Cosmopolitan, mainly North Atlantic. Type locality: U.K.
Distribution in South Africa. Table Bay to Mocambique, littoral to 111 m.

33/18 (s), 34/18 (1, s), 34/20 (s), 34/22 (s), 34/23 (s, d), 33/25 (s), 34/25 (s), 33/26
(s), 33/27 (s), 32/28 (s), 30/30 (s), 29/31 (s), 28/32 (s, d), 24/34 (s)

Sertularella polyzonias falsa Millard, 1957
Fig. 98D-E
Sertularella falsa Millard, 1957: 211, figs 10F, 11D.

Diagnosis. Stem unfascicled, short (under 30 mm), branching irregularly.
Hydrotheca small to medium, 0,4-0,6 mm in abcauline height and 0,19-

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 830]

0,3 mm in marginal diameter. Four small internal teeth present, alternating with
marginal teeth.

Gonotheca of medium size (reaching 2,6 mm in length), with 3-4 marginal
spines.

Variation. This subspecies is very similar to.the nominal one in appearance and
dimensions, its main diagnostic character being the presence of internal teeth.
These may not be visible in older hydrothecae. S. polyzonias f. glabra Broch,
1933 is also described as having internal teeth in most of the hydrothecae, but
the shape of the hydrotheca is rather different, being more constricted at the
margin. As in the nominal subspecies the abcauline margin and marginal tooth
may be slightly produced so that the perpendicular passes through the adcauline
basal thickening. The abcauline wall may have a low thickening below the
margin.

Distribution. Endemic to South Africa. Type locality: False Bay, about a
kilometre east of Seal Island, 27 m.

Distribution in South Africa. False Bay and Knysna Estuary, littoral to 40 m.
34/18 (1, s), 34/23 (s)

Sertularella polyzonias gigantea Hincks, 1874

Fig. 98J

Sertularella polyzonias var. gigantea Hincks, 1874: 151, pl. 7 (figs 11-12). Stechow, 1925a:

478, fig. 6.
Diagnosis. Stem ?unfascicled, ?unbranched, reaching 17 mm in height, with one
or two weak annulations at the base of each internode. Perisare very thick in
stem, thin in hydrothecae.

Hydrotheca very large, 1,2 mm in abcauline height and 0,5 mm in marginal
diameter, adnate for about one-third height. No internal teeth.

Distribution outside South Africa. Uncertain. Type locality: Iceland.

Distribution in South Africa. One record only (Stechow 1925a), from Plettenberg
Bay, 100 m. 34/23 (d)

Remarks. No further material resembling that ascribed by Stechow to var.
gigantea has been found. Since Stechow’s description was based on one infertile
stem only, the nature of the colony cannot be diagnosed with certainty. It is also
not certain whether var. gigantea of Hincks is synonymous with S. gigantea
Mereschkowsky, 1878.

Sertularella polyzonias xantha Stechow, 1923
Fig. 98A—C

Sertularella xantha Stechow, 19736: 109. Stechow, 1925a: 472, fig. 32. Millard, 1957: 218,
figs 10K, 111.
Sertularella longa Stechow, 1923b: 110. Stechow, 1925a: 483, fig. 38.

Diagnosis. Stem often weakly fascicled at base, reaching great lengths (up to

302 ANNALS OF THE SOUTH AFRICAN MUSEUM

wate

H

Fig. 98.

Sertularella polyzonias. A-C, stem, hydrothecae and gonotheca of subsp. xantha; D and E,
hydrothecae and gonotheca of subsp. falsa; F-H, colony, hydrothecae and gonotheca
of subsp. polyzonias; J, hydrothecae of subsp. gigantea, redrawn from Stechow (1925a).

Scale: A in cm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 303

270 mm), branching and rebranching repeatedly. Internodes often very long and
nodes not visible in older regions.

Hydrotheca of medium size, adnate for over half height, 0,5-0,7 mm in
abcauline height and 0,2-0,3 mm in marginal diameter. Usually without internal
teeth.

Gonotheca long, over 2,5 mm, with 3-4 marginal spines.

Variation. In this subspecies it is only the older colonies which have fascicled
stems, and even these always retain the slender and flexuous appearance typical
of the species. In some colonies the branching may show a tendency towards a
regular pinnate arrangement, but it is more often quite irregular. Both inter-
node length and thickness of perisarec vary tremendously, young parts of the
colony having short internodes, thin perisarc and distinct nodes, and older parts
having longer internodes, thicker perisarc and no nodes. With thicker perisarc,
a thickening on the abcauline wall of the hydrotheca is apparent, which, how-
ever, 1S never so marked as, for instance, in S. arbuscula.

The hydrorhiza, which is typically creeping, may become branching and
filamentous in deep-water specimens for penetration of mud.

In the hydrotheca the perpendicular always passes through the adcauline
wall, though the concavity in the abcauline wall may at times be very slight.
Usually there is no sign of internal teeth, but certain stems in a colony may have
four minute internal teeth alternating with the marginal teeth.

Distribution. Endemic to South Africa. Type locality: off Cape Town, 33°41,2’S/
18°0;3E, 178 m.

Distribution in South Africa. Common on the south coast from Table Bay to
East London, also off Durban, 7-350 m. 33/18 (s, d), 34/18 (s, d), 35/19 (s),
34/20 (s), 34/21 (s), 35/21 (d), 34/22 (s, d), 35/22 (d), 34/23 (s, d), 34/24 (d),
33/25 (s), 34/25 (d), 34/26 (d), 33/27 (s), 29/31 (s, d)

Sertularella pulchra Stechow, 1923
Fig. 96G-J

Sertularella pulchra Stechow, 1923b: 113. Stechow, 1925a: 485, fig. 39. Millard, 1964: 46,
fig. 13E-G.

Diagnosis. Stem stiff, fascicled, giving off alternate hydrocladia in one plane,

reaching 74 mm in height. Hydrocladia arising from immediately below every

third hydrotheca at a wide angle, alternately on the right and left. Stem and

hydrocladia divided into internodes by oblique nodes sloping in alternate direc-

tions, each internode bearing one hydrotheca.

Hydrotheca of medium size, long and slender, adnate for about half
adcauline length, with three or four distinct transverse striations on free part of
adcauline wall, abcauline wall straight or slightly concave, margin perpendicular
to axis or tilted slightly towards abcauline side, 0,6-0,8 mm in abcauline height

304 ANNALS OF THE SOUTH AFRICAN MUSEUM

and 0,2-0,3 mm in marginal diameter. Four internal teeth of equal size alternating
with marginal teeth.

Gonothecae borne on stem and hydrocladia immediately below the hydro-
thecae on the same or the opposite side, spindle-shaped, annulated; margin with
4-6 spines.

Variation. The long, slender hydrotheca with adcauline striations is characteristic
and easily recognized. Usually the axis is straight, but sometimes it is slightly
curved. In general the tendency is to bend away from the stem, but occasional
examples occur in which the abcauline marginal tooth is slightly elongated so that
the perpendicular passes through the hydropore. The adcauline striations are
occasionally faint or invisible, though only in a few hydrothecae of a colony.
The internal teeth are constant in number and position, though occasionally
absent in the youngest hydrothecae of a colony or in very young stems with
extra thin perisarc.

Distribution. Endemic to South Africa. Type locality: Simon’s Bay, 70 m.

Distribution in South Africa. South coast, from False Bay to East London, 40-
120 m. 34/18 (s), 34/21, 34/23 (s), 34/25 (s), 33/26 (d), 33/27 (s), 33/28 (s), 32/28 (s)

Sertularella striata Stechow, 1923
Fig. 97E-F
Sertularella striata Stechow, 1923a: 10. Stechow, 1925a: 470, fig. 30. Millard, 1964: 47, fig. 15.
Diagnosis. Stem short and stiff, unfascicled, unbranched or with at most one
or two short branches, reaching 11 mm in height. Branches, when present, arising
from immediately below the hydrothecae. Stem and branches divided into inter-
nodes by oblique nodes sloping in alternate directions, each internode bearing
one hydrotheca and usually with an annulation at the base.

Hydrotheca small, adnate for about half adcauline length, with about six
or seven distinct, ridged annulations evenly spaced over entire length and con-
tinued right round wall, abcauline wall more or less straight, abcauline marginal
tooth generally produced and margin perpendicular to axis or tilted slightly
towards adcauline side, 0,4-0,5 mm in height and 0,15-0,2 mm in marginal
diameter. No internal teeth.

Gonothecae borne on front of stem immediately below the hydrothecae,
spindle-shaped, annulated; margin generally with three or four minute spines.
An external marsupium present in female.

Variation. The hydrotheca is characteristically asymmetrical in side view with
the abcauline tooth produced, but a slight outward bend usually results in a
margin perpendicular to the axis. Occasionally, however, completely symmetrical
hydrothecae are found. The strength and number of the striations is variable,
and in the same colony examples may be found with about nine distinct striations

and others with only four or five rather indistinct ones, the former
predominating.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 305

The gonothecae tend to be completely annulated, though the striations may
fade out in the lower region. Marginal spines vary in number, and may be as
many as five or six.

Distribution. Endemic to South Africa. Type locality: Cape Agulhas, 35°2,5’S/
19°58,5’E, 80 m.

Distribution in South Africa. Agulhas Bank, from Cape Agulhas to East London,
9-100 m. Not common. 35/19 (s), 34/22 (s), 34/23 (d), 33/25 (s), 33/27 (s)

Doubtful species
Sertularella gayi (Lamouroux, 1821)

Sertularia gayi Lamouroux, 1821: 12, pl. 66 (figs 8-9).
Sertularella gayi: Picard, 1956: 261, figs 2d, 4a. Vervoort, 1959: 273, figs 33b-c, 34b. Ralph,
1961a: 833, fig. 24d-f. Vervoort, 19666: 127, fig. 30.

Remarks. Previous records of this species from South Africa are as follows:
Johnston (1838) as Sertularia polyzonias var. 8. This material was ascribed to S. gayi
by Hincks (1868) and Nutting (1904). Diagram and description inadequate.
Busk (1851) as Sertularia polyzonias. An infertile stem of Busk’s material was ascribed

to S. gayi by Millard (1961) but the hydrotheca was without adcauline annula-

tions and might equally well be S. dubia.
Jaderholm (1923a). An infertile fragment. No diagram given.

None of these records is conclusive evidence that the species occurs in South
Africa. Picard (1956) maintains that S. gayi can be distinguished from closely related
species by the bilabiate aperture of the gonotheca. Infertile material could be confused
with S. capensis or S. dubia, in which the margin of the gonotheca bears several
minute spines.

S. gayi is common in the Atlantic and has been reported from tropical west Africa
by Vervoort (1959, 1966). It might be noted that some of Vervoort’s material is with-
out the characteristic annulations on the adcauline wall of the hydrotheca, thus
approaching the condition in S. dubia.

Genus Sertularia Linnaeus, 1758

Diagnosis. Stem erect, branched or unbranched. Stem and branches bearing
hydrothecae in two longitudinal rows. Hydrotheca sessile, partly adnate, with
two marginal teeth seated more or less midway between adcauline and abcauline
edge and usually a small, median adcauline one. Aperture triangular. Operculum
of two valves, a smaller adcauline one and a larger abcauline one, the former
often divided into two sections by a median partition. Hydranth with an
abcauline caecum.

Type species: Sertularia cupressina Linnaeus, 1758.

KEY TO SPECIES

[Doubtful species not included, for these see p. 313]

1. Stem normally branching, branches alternate. Hydrotheca with abcauline intrathecal
septum a ne Me a 5 oe a oe oe S. marginata
— Stem normally unbranched; if branched, branches not alternate

306 ANNALS OF THE SOUTH AFRICAN MUSEUM

2. Hydrotheca with abcauline intrathecal septum .. ie BE a ey See 3)
— Hydrotheca without intrathecal septum .. 4
3. Hydrotheca erect and only slightly bent out in distal region. Merce es ine ae
poorly developed Aes S. ligulata
— Hydrotheca strongly bent out at about half height Marginal t teeth usually triangular
and well developed .. a 5 : : 5 ate S. turbinata
4. Hydrotheca bulging near base and narrowing saenediy to margin. Perisarc thickened
around thecal margin : S. longa
- Hydrotheca slender, with more or “Tess parallel sides, ‘narrowing only slightly to
margin. Perisarc of hydrotheca not thickened .. a me Ay .. 9S. distans

Sertularia distans (Lamouroux, 1816)
Fig. 99E-H
Dynamena distans Lamouroux, 1816: 180, pl. 5 (fig. 1).
Sertularia gracilis Hassall, 1848: 2223. Hincks, 1868: 262, pl. 53 (fig. 2).
Sertularia heterodonta Ritchie, 1909: 79, fig. 4.
Sertularia distans: Billard, 19256: 197, fig. 1.
Sertularia distans var. gracilis: Billard, 1925a: 175, fig. 33. Millard, 1957: 221, fig. 12. Van

Germerden-Hoogeveen, 1965: 36.

Sertularia distans gracilis: Millard, 1964: 49.

Diagnosis. Stem unfascicled, unbranched, 3-12 mm in height, each normal inter-
node bearing a pair of opposite hydrothecae. Normal nodes straight. Hinge-
joints present (a) terminating basal athecate part of stem, and (b) sporadically
in distal region, each terminating a separate, narrow, athecate internode.
Members of a pair of hydrothecae contiguous in front (except occasionally in
basal part of stem), separate behind.

Hydrotheca tubular, not swollen and with more or less parallel sides in
basal part, narrowing slightly to margin, distal part bent outwards at an angle
of about 70° with stem, with evenly concave abcauline wall; adnate $-2 adcau-
line length; with no intrathecal septum, 0,19-0,3 mm in abeauline he gt and
0,07—0,09 mm in marginal diameter. Margin with two moderately well-developed
lateral teeth and a small adcauline one.

Gonotheca oval, smooth, circular in cross-section, with wide distal aperture
on a short collar, with external marsupium in female.

Variation. There seems to be little ground for specific, or even varietal, differen-
tiation between S. distans and S. gracilis, the differences noted by various authors
(Billard 19255; Picard 1951) being minor ones of size only. Thin etiolated stems
(said to be characteristic of S. distans) may occur in the same colony as thicker
stems (said to be characteristic of S. gracilis).

Regular branching does not occur, but occasional instances of branches
arising from within hydrothecae have been seen. Considerable variation in
growth-form can occur, including such characters as the presence or absence
of internal perisarcal thickenings in the hydrorhiza, the length of the basal
athecate part of the stem, the number of hinge-joints terminating this region
(1-3), the length of the thecate internodes, and the presence of nodes (which may
be indistinct or invisible). Variation may also occur along the length of a stem,

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 307

the distal pair of hydrothecae being more erect, longer, and contiguous with one
another for a greater length than the basal one.

Internal pegs of perisarc in the basal region of the hydrotheca are very
characteristic, although not invariably present. These include one on the abcau-
line wall near the base, and one on the base medial to the hydropore. Internal
teeth may also occur in the hydrotheca just below the margin—a single abcauline
tooth is common and usually well developed when present, and occasionally
two extra teeth may occur in a latero-adcauline position.

Distribution outside South Africa. Common in the tropical and temperate regions
of the Atlantic and Indian Oceans; also Japan. Type locality: Atlantic Ocean.

Distribution in South Africa. Present at numerous localities from False Bay to
Santa Carolina in Mocgambique, though not common inany one place, littoral
to 100 m. 34/18 (s), 34/20 (1), 34/22 (s), 33/25 (s), 33/27 (s), 32/28 (1, s), 31/29
(I, s), 31/30 @), 30/30 (Ss), 29/31 (s), 28/32 (s, d), 26/32 (1) 25/23 (s), 24/34 (s),
24/35 (s), 23/35 (s), 21/35

Sertularia ligulata Thornely, 1904
Fig. 100A, D

Sertularia ligulata Thornely, 1904: 116; pl. 2 (figs 1-1B). Billard, 1925a: 178, fig. 35 (early
synonymy). Leloup, 1937: 44, fig. 30. Millard, 1958: 193, figs 8C, 9A—B. Vervoort, 1959:
277, fig. 37. Millard & Bouillon, 1973: 74, fig. 9G.

Diagnosis. Stem unfascicled, usually unbranched but rarely with 1-3 branches,

reaching a height of 27 mm, with a short basal athecate part terminated by a

hinge-joint and a long distal part bearing hydrothecae in opposite pairs. Mem-

bers of a pair of hydrothecae contiguous in front, separate behind. Branches,
when present, similar to stem.

Hydrotheca with an abcauline intrathecal septum; swollen below septum,
narrowing to mouth above it; erect and parallel to stem for half or more of
height, then bent out; adnate for two-thirds or more of adcauline length, 0,2-
0,3 mm in abcauline height, 0,11-0,16 mm in marginal diameter. Margin very
delicate, more or less parallel to axis of stem, with two low and poorly developed
lateral teeth and a small adcauline one. No internal teeth. Adcauline opercular
flap very small. A leaf-shaped process, the ligula, present on adcauline side of
hydranth body, arising from base of hydranth and projecting through mouth of
hydrotheca when extended, well-armed with nematocysts and probably
functioning as a nematophore.

Gonotheca (not reported from South Africa) borne on stem below
hydrotheca, barrel-shaped, with about three transverse annulations (Thornely).

Variation. Branching, when it occurs, is not regularly alternate; the branches
arise from the front of the stem below the thecal pairs and slightly to one side,
they project diagonally forwards and the hydrothecae face towards the mid-line.
There is no disturbance of the arrangement of the cauline hydrothecae as, for

308 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 99.

Sertularia marginata. A, pinnate stem showing origins of hydrocladia and one rebranching
hydrocladium; B, pinnate stem; C, hydrothecae; D, simple stem.
Sertularia distans. E and F, hydrothecae from middle and lower parts of stem respectively,
F with hinge-joint; G, gonotheca; H, stem.
Scale: B in cm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 309

instance, in S. marginata. Stems and branches often form stolons which reattach
and result in a tangled colony. Branches may also arise from within the hydro-
thecae.

The stem nodes are variable. They may be absent, suggested only by a
shallow groove, or present and then straight or slightly oblique.

The hydrothecae change in shape along the length of the stem, the distal
ones being more erect, and contiguous and adnate for a greater amount than the
basal ones. The margin tends to be directed slightly upwards in the distal hydro-
thecae and slightly downwards in the basal ones.

Distribution outside South Africa. Tropical Indo-Pacific, tropical West Africa
and Japan. Type locality: Gulf of Manaar, Ceylon.

Distribution in South Africa. Mogambique: Inhaca to Santa Carolina, 0-15m.
26/32 (1, s), 23/35 (s), 21/35

Sertularia longa Millard, 1958
Fig. 10OF—H

Sertularia linealis var. longa Millard, 1958: 197, fig. 8E.

Sertularia linealis: Millard, 1968: 272.

Sertularia linealis longa: Millard & Bouillon, 1973: 75, fig. 9E-F.

Sertularia longa: Millard & Bouillon, 1974: 33, fig. 7D, J.

Diagnosis. Hydrorhiza usually growing on weed and with internal strengthening
pegs of perisarc. Stem unfascicled, unbranched, reaching a maximum height of
9 mm, each normal internode bearing a pair of opposite hydrothecae. Normal
nodes oblique or indistinct. A hinge-joint (or rarely, two) present near base of
stem below thecate part, and at irregular intervals within thecate part where it
terminates a short intermediate athecate internode. Members of a pair of hydro-
thecae contiguous in front (except sometimes in basal part of stem), separate
behind.

Hydrotheca adnate for over half height, bent outwards, swollen below
and narrowing to mouth, with concave abcauline wall but not evenly so and with
a definite kink in lower or middle part, with no intrathecal septum, 0,16—0,2 mm
in abcauline height and 0,07-0,11 mm in marginal diameter. Margin usually
thickened, with two well-developed, roundly triangular lateral marginal teeth
and a very small adcauline one. Internal teeth absent.

Gonotheca borne on front of stem below first pair of hydrothecae, smooth,
compressed, curved pear-shape in broad view, with a wide distal operculate
aperture on a short collar, reaching 1,1 mm in length and 0,6 mm in maximum
diameter.

Variation. The shape of the hydrotheca changes along the length of the stem,
the distal ones being more erect and contiguous for a greater length than the
proximal ones.

Distribution outside South Africa. Seychelles.

310 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 100.

Sertularia ligulata. A, stem; D, hydrotheca with hydranth, showing caecum, ligula and
operculum (broken line).
Sertularia turbinata. B, forma acuta, stem; C, forma turbinata, stem; E, forma acuta,
gonotheca.
Sertularia longa. F, hydrotheca; G, stem; H, stem with gonotheca.
Scale in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 311

Distribution in South Africa. Coast of Mogambique, littoral to 42 m. Type
locality: Inhaca Island. 26/32 (1, s), 25/32, 25/33 (s), 23/35 (1)

Sertularia marginata (Kirchenpauer, 1864)
Fig. 99A—D

Dynamena marginata Kirchenpauer, 1864: 13, fig. 8.

Desmoscyphus inflatus Versluys, 1899: 42, figs 11-13.

Sertularia marginata: Billard, 1925a: 178. Totton, 1930: 204, fig. 48b. Millard, 1957: 224,
fig. 13. Ralph 196la: 785, fig. 12a-g. Van Germerden-Hoogeveen, 1965: 39, figs 13-17.
Mammen, 1965a: 45, fig. 77. Millard & Bouillon, 1974: 33, fig. 6E.

Sertularia inflata: Vervoort, 1959: 281, figs 39-41. Van Gemerden-Hoogeveen, 1965: 45,
figs 18-22.

Diagnosis. Stem unfascicled, reaching a height of 30 mm, either pinnate, or

simple and unbranched. Pinnate stem with a short basal athecate part terminated

by a hinge-joint, and a long distal thecate part bearing alternate hydrocladia.

Thecate part divided by oblique nodes into internodes which bear either one

hydrocladium and three hydrothecae (one in axil and an alternate pair above),

or one pair of opposite or subopposite hydrothecae. Stem geniculate at least
in distal part. The two rows of hydrocladia in one plane. Members of a pair of
hydrothecae not contiguous except in distal region of stem.

Hydrocladium borne on long apophysis of stem and separated from it by
a hinge-joint. Apophysis containing a transverse node which may be indistinct.
Hydrocladium divided by nodes, which vary from very distinct and oblique to
indistinct and transverse, into internodes, each of which bears a pair of opposite
hydrothecae on anterior surface. Members of a pair of hydrothecae contiguous
in front (except sometimes in basal region of hydrocladium), separate behind.

Simple stem similar to hydrocladium.

Hydrotheca with an abcauline intrathecal septum, swollen below septum,
narrowing to mouth above it, bent outwards and slightly forwards, adnate for
over half adcauline length, 0,15-0,3 mm in abcauline height, 0,09-0,19 mm
in marginal diameter. Margin with two well-developed, triangular and sharp
lateral teeth and a small adcauline one. No internal teeth.

Gonotheca (not reported from South Africa) borne on front of stem, ovate,
compressed, with 5-9 transverse ridges, terminal opening and two distal spines.

Variation. The hydrorhiza may contain internal perisarcal thickenings in certain
regions.

The basal athecate part of the stem is of variable length and may contain
one or more transverse nodes. The arrangement on the rest of the stem
depends on the presence or absence of hydrocladia. Aninternode bearing a hydro-
cladium typically has three hydrothecae arranged as described above, and an
internode without a hydrocladium typically has a pair of opposite hydrothecae.
When the first condition changes to the second the hydrothecae on successive
internodes are gradually displaced from the alternate to the opposite position,
and vice versa. A varying number of thecate internodes (up to four) without

312 ANNALS OF THE SOUTH AFRICAN MUSEUM

branches may occur at the proximal and the distal end of a branching stem and
occasionally at intervals along its length. Hydrocladia are normally unbranched,
but may branch in a similar way to the stem, with the same modifications.

Hinge-joints may occasionally occur in the thecate part of the stem, but are
not so common as in certain other species (e.g. S. distans). Such a hinge-joint
always forms the termination of a short, intermediate, athecate internode.

In unbranched regions of the stem or hydrocladia the amount of contiguity
between members of a pair of hydrothecae is variable and tends to increase
towards the distal end. This is particularly well shown in simple stems, where
the proximal pairs usually do not touch one another at all. The structure of the
hydrotheca shows a similar gradation, those at the distal end being more erect
than the proximal ones and without the intrathecal septum.

Distribution outside South Africa. Common in all tropical oceans, and extending
into temperate areas in the Atlantic and southern Pacific (New Zealand).
Type locality: Pacific Ocean.

Distribution in South Africa. False Bay to Inhaca, 0-46 m. Not common.
34/18 (s), 34/25 (s), 26/32 (s)

Sertularia turbinata (Lamouroux, 1816)

Fig. 100B-C, E
Dynamena turbinata Lamouroux, 1816: 180.
Sertularia loculosa: Warren, 1908: 306, fig. 8, pl. 48 (fig. 37).
Tridentata acuta Stechow, 1921b: 231.
Sertularia turbinata: Billard, 1925a: 177, fig. 34. Millard, 1958: 197, fig. 8B. Vervoort, 1959:

275, figs 35-36. Millard, 1964: 49. Millard & Bouillon, 1973: 76, fig. 9H.

Sertularia acuta: Millard, 1958: 192, fig. 8A, F.
Diagnosis. Stem unfascicled, unbranched, reaching a height of 25 mm, with a
short basal athecate part terminated by a hinge-joint and a long distal part
bearing hydrothecae in opposite pairs. Hinge-joints also occurring sporadically
in distal region, each forming the termination of an extra, narrow, athecate
internode. Members of a pair of hydrothecae contiguous in front (except some-
times in basal region of stem), separate behind.

Hydrotheca with an abcauline intrathecal septum, swollen below septum,
narrowing to mouth above it, curved outwards and members of a pair with
their axes diverging progressively from base to margin, adnate for 4-3 adcauline
length, 0,16-0,3 mm in abcauline height, 0,09-0,17 mm in marginal diameter.
Margin usually facing upwards and outwards, with two well-developed,
triangular lateral teeth and a small adcauline one. No internal teeth.

Gonotheca borne on stem below hydrothecae, barrel-shaped, annulated,
with wide distal aperture.

Variation. This species occurs in two forms, which were originally considered to

be separate species but which have been shown (Millard 1964) to grade into one
another.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 313

Forma turbinata (Lamx.) has long internodes (approx. 0,8 mm) and long
hydrothecae (abcauline length approx. 0,3 mm) and the nodes are generally
oblique. Forma acuta (Stechow) has short internodes (approx. 0,5 mm) and
short, squat hydrothecae (abcauline length approx. 0,2 mm) and the nodes are
generally straight. In both forms the nodes may be indistinct in the lower part
of the stem. ;

The shape and position of the hydrotheca changes along the length of the
stem—the members of the distal pair being more erect and more contiguous to
one another than those of the proximal pair.

The perisarc is thin in young colonies, though with a tendency for thickening
of the abcauline thecal wall distal to the intrathecal septum. In old colonies all
the perisarc is thickened.

Vervoort has observed two minute distal spines on the gonotheca of
f. turbinata; these have not been seen in f. acuta.

Distribution outside South Africa. Circumglobal in tropical and subtropical
waters. Type locality: Australasia.

Distribution in South Africa. Mossel Bay on the south coast to Inhambane on the
east, littoral to 48 m. 34/22 (s), 33/27 (s), 31/29 (1), 30/30 (1), 29/31 (s), 28/32
(s), 26/32 (1), 24/35 (s), 23/35 (1, s)

Doubtful species
Sertularia argentea Linnaeus, 1758

Sertularia argentea Linnaeus, 1758: 809. Busk, 1851: 118. Hincks, 1868: 268, pl. 56. Hancock
et al., 1956: 307, figs 1E-H, 2A-B, D-E, 3, 5. Millard, 1961: 203.

Remarks. This common North Atlantic species has only been recorded from South
Africa by Busk (1851). The identification of Busk’s material was confirmed by Millard
(1961), but the species has never been found again. Its presence in South African
waters needs confirmation.

Genus Stereotheca Stechow, 1919
Syn. Levinsenia Bale, 1915.

Diagnosis. Stem erect, unfascicled, pinnate. Stem and hydrocladia bearing two
longitudinal rows of hydrothecae. Hydrotheca sessile, with more than four well-
developed marginal teeth, with no intrathecal septa and no external ridges or
furrows. No operculum.
Type species: Sertularia elongata Lamouroux, 1816.

One species only from South Africa.

Stereotheca elongata (Lamouroux, 1816)
Fig. 101D, E

Sertularia elongata Lamouroux, 1816: 189, pl. 5 (fig. 3). Allman, 1886: 140, pl. 15.
Stereotheca elongata: Ralph, 1961a: 762, fig. 4e—k.

Diagnosis. Stem moderately stiff (able to support itself out of fluid), unfascicled,

314 ANNALS OF THE SOUTH AFRICAN MUSEUM

unbranched, reaching 58 mm; bearing alternate hydrocladia; divided into regular
internodes by oblique nodes sloping in alternate directions. Each internode
bearing one hydrocladium and three hydrothecae (one axillary and a subopposite
pair above). The two rows of hydrocladia in one plane. Hydrocladium borne on
a short apophysis; divided into internodes of irregular length by slightly oblique
nodes; each internode bearing one to three pairs of subopposite hydrothecae.
The two rows of hydrothecae in one plane.

Hydrotheca tubular, with axis straight or bent outwards, adnate for over
three-quarters of adcauline height, smooth, 0,2-0,3 mm in abcauline height
and 0,14-0,20 mm in marginal diameter. Margin with six teeth which are very
irregular in size, shape and position.

Gonotheca borne on stem immediately below third hydrotheca of inter-
node, smooth, compressed, widening from base to truncated distal end, which
bears a terminal aperture on a short collar and two hollow spines.

Variation. Much variation occurs in the shape of the hydrotheca and its marginal
teeth. The hydrotheca is usually asymmetrical, bending slightly to one side,
and there may also be an asymmetry of the teeth, with those of one side better
developed than those of the other. One marginal tooth may be very
much broader and longer than the others.

The distal horns of the gonotheca are also reported to vary in length, though
not noticed in South Africa; they are usually long, though one or both may be
reduced to short knobs.

Distribution outside South Africa: Australasia (type locality), North Sea.
Distribution in South Africa. Algoa Bay. 33/25

Genus Symplectoscyphus Marktanner-Turneretscher, 1890

Diagnosis. Stem erect, branched or unbranched. Stem and hydrocladia bearing
alternate hydrothecae which form two longitudinal rows. Hydrotheca sessile,
generally more cylindrical than in Sertularella, with three marginal teeth, one
median adcauline and two latero-abcauline, and an operculum of three triangular
valves seated in the bays between the teeth and meeting in the centre as a
pyramid. Hydranth with abcauline caecum.

Type species: Symplectoscyphus australis Marktanner-Turneretscher, 1890
(= Sertularia johnstoni Gray, 1843).

KEY TO SPECIES
(Doubtful species not included. For these see p. 319)

1 Hydrotheca large (over 0,7 mm in abcauline height), tubular, curved smoothly outwards.
Distal part of stem slender and geniculate S. paulensis
- Hydrotheca small to medium (under 0,7 mm in abcauline height). Stem not geniculate 2

2; Stem fascicled and freely branching. Hydrotheca with wide mouth (= half or more ab-
cauline length). Gonotheca annulated - a & — S. arboriformis

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 315

Fig. 101.

Symplectoscyphus arboriformis. A, hydrotheca; B, stem, C, hydrocladium and gonotheca.
Stereotheca elongata. D, part of stem showing origins of hydrocladia and gonotheca;

E, hydrotheca.
Scale: B in cm, the rest in mm/10.

316 ANNALS OF THE SOUTH AFRICAN MUSEUM

— Stem unfascicled, usually unbranched. Hydrotheca with narrow mouth (= half or less

abcauline length) a os ce as By ts ie ce ne wre 8)
3. Gonotheca smooth, aperture on slender neck... Le ae S. macrogonus
— Gonotheca transversely annulated, no neck a 3s ms ba S. secundus

Symplectoscyphus arboriformis (Marktanner-Turneretscher, 1890)
Fig. 101A—C

Sertularella arboriformis Marktanner-Turneretscher, 1890: 228, pl. 4 (fig. 5). Stechow, 1912:
Sioa arboriformis: Millard, 1964: 51.

Diagnosis. Stem stiff, fascicled, branching and rebranching in a roughly alternate
fashion and in one plane, reaching 110 mm in height. Hydrocladia arising from
below hydrothecae, the two rows in one plane. Stem and hydrocladia divided
into internodes by oblique nodes sloping in alternate directions, each internode
bearing one hydrotheca. The two rows of hydrothecae in one plane.

Hydrotheca small to medium, adnate for 4-4 adcauline length, smooth,
curved outwards and margin tilted towards abcauline side, 0,3-0,6 mm in
abcauline height and 0,3-0,4 mm in marginal diameter. Margin not constricted.
No internal teeth.

Gonothecae borne on stem and hydrocladia immediately below the hydro-
thecae, obovoid, transversely annulated in distal part, reaching 1,9 mm in
height and 1,0 mm in maximum diameter. Aperture small and circular, on a
raised collar.

Distribution. Endemic to South Africa. Type locality: ‘Indian Ocean’.

Distribution in South Africa. From the Orange River mouth in the west to Natal
in the east, 10-219 m. 28/16 (s), 33/18 (s), 34/18 (s), 34/21 (s), 35/21 (d), 34/22,
35/22 (d), 33/25 (s), 34/25 (s, d), 33/26 (d), 34/26 (d), 33/27 (s), 33/28 (s),
32/28(s), 29/311 @)

Symplectoscyphus macrogonus (Trebilcock, 1928)
Fig. 102D-—G

Sertularella macrogona Trebilcock, 1928: 11, pl. 1 (figs 44d).
Symplectoscyphus macrogonus: Millard, 1957: 219. Ralph, 1961a: 798, fig. 14a—b.
Diagnosis. Stem stiff, unfascicled, generally unbranched, reaching 32 mm in
height, but usually under 10 mm. Stem divided into internodes by oblique nodes
sloping in alternate directions, each internode bearing one hydrotheca. The two
rows of hydrothecae usually shifted onto anterior surface.

Hydrotheca small, adnate for less than half adcauline length, smooth,
tubular, curved outwards and then upwards, 0,2-0,3 mm in abcauline height
and 0,09-0,15 mm in marginal diameter; margin perpendicular to axis or tilted
towards abcauline side; abcauline wall straight or concave. Three internal
teeth usually present alternating with marginal teeth.

Gonotheca borne near base of stem, smooth, compressed, obovoid in

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 317

broad view, with a broad, concave distal end from the centre of which arises
a slender collar bearing a terminal aperture, reaching 1,4 mm in length and
1,1 mm in maximum diameter.

Colour: stem horn-coloured, hydranths creamy white.

Variation. This species commonly grows on weeds, and its appearance varies
from a sparse carpet of unbranched stems to a bushy growth of irregularly
branched and anastomosing stems. The two rows of hydrothecae sometimes lie
in the same plane, but more often they form an angle between them which may
be as small as 45°. At the base of the stem are two or more close annulations.
Internal teeth may be absent in complete stems of a colony or in just some
hydrothecae of a stem.

Distribution outside South Africa. New Zealand, tropical South West Africa.
Type locality: Dunedin, New Zealand.

Distribution in South Africa. From the northern border of South West Africa
to East London, common on the west coast, littoral to 37 m. 20/13 (1), 26/15
(28/16 (S), 32/17 (1); 32/18 (1, s), 33/17 G), 33/18 dC, s), 34/18 d, s),; 34/19,
Bo s1(S)2 93) 261(1), 33/27 (1); 32/28 (s)

Symplectoscyphus paulensis Stechow, 1923
Fig. 102A—C
Symplectoscyphus paulensis Stechow, 1923a: 8. Stechow, 1925a: 467, fig. 28. Millard, 1967:

183, fig. 4G—H. Vervoort, 1972: 180, figs 60b, 61.

Diagnosis. Stem moderately stiff, generally unfascicled, unbranched or with
one or two alternate branches, reaching a maximum height of 47 mm. Stem
divided into internodes by oblique nodes sloping in alternate direttions (but
nodes often indistinct), each internode bearing one hydrotheca, geniculate and
very slender in distal regions. The two rows of hydrothecae and branches in one
plane.

Hydrotheca large, adnate for one-third or less adcauline length, smooth,
tubular, curved outwards, not narrowing to margin, 0,7-0,9 mm in abcauline
height and 0,4 mm in marginal diameter. No internal teeth. A pair of oval
fenestrae closed by thin perisarc present below the base of each hydrotheca.

Gonothecae borne on stem or branches, obovoid, with several transverse
undulations and a terminal aperture on a slender collar, reaching 1,5 mm in
length and 1,1 mm in maximum diameter.

Variation. Stechow described this species as having a strongly fascicled stem,
but South African material is at most lightly fascicled in the larger stems only.
Possibly more mature colonies are more strongly fascicled.

Many of the hydrothecae have a thickened rim around the margin.

Distribution outside South Africa. South-west Indian Ocean and South Atlantic.
Type locality: east of St. Paul, Indian Ocean.

318 ANNALS OF THE SOUTH AFRICAN MUSEUM

G

Fig. 102.

Symplectoscyphus paulensis. A, hydrotheca; B, fertile stem; C, part of stem with gonotheca.
Symplectoscyphus macrogonus. D, female gonotheca; E, stem and male gonotheca; F and
G, hydrothecae.
Symplectoscyphus secundus. H, hydrothecae and gonotheca, redrawn from Kirchenpauer
(1884, as Sertularella secunda).
Scale: B in cm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 319

Distribution in South Africa. Off Natal and Mogambique in 347-440 m. A deep-
water species. 29/31 (d), 24/35 (d)

Symplectoscyphus secundus (Kirchenpauer, 1884)
Fig. 102H

Sertularella secunda Kirchenpauer, 1884: 50, pl. 15 (figs 7—7a). Hartlaub, 1901a: 75, pl. 2

38).
Res tnbia ees 1886: 134, pl. 9 (figs 3-4).
Diagnosis. Stem unfascicled, unbranched or weakly branched, reaching 7 mm
in height, divided into short internodes by oblique nodes sloping in alternate
directions, each internode bearing one hydrotheca. The two rows of hydrothecae
not in one plane but shifted onto the anterior surface of the stem.

Hydrotheca small, adnate for less than one-third length, smooth, flask-
shaped, 0,3-0,4 mm in abcauline height and 0,17—0,2 mm in marginal diameter;
margin tilted towards adcauline side due to elongation of abcauline marginal
tooth; abcauline wall more or less straight. Three internal teeth sometimes
present, alternating with marginal teeth.

Gonothecae borne on stem, ovoid to spherical, with a few transverse
annulations in distal half; aperture terminal, without neck; with external
marsupium.

Remarks. This species has not been recorded since the time of Kirchenpauer and
Allman. The type material was redescribed by Hartlaub.

The measurements given in the diagnosis were taken from Allman’s material
in the British Museum. The internal teeth were observed in this material,
although not mentioned in the literature. The species is very similar to
S. macrogonus, but has a different gonotheca.

Distribution. Endemic to South Africa.

Distribution in South Africa. Both Kirchenpauer and Allman give the locality
simply as Cape of Good Hope.

Doubtful species
Symplectoscyphus filiformis (Allman, 1888)

Sertularia gracilis Allman, 1888: 51, pl. 24 (figs 1—-1a).

Sertularia filiformis Allman, 1888: pl. 24 (figs 11a).

Sertularella filiformis var. reticulata Ritchie, 1907b: 535.

Symplectoscyphus filiformis: Totton, 1930: 194, fig. 42, pl. 3 (fig. 9). Rees & Thursfield, 1965:
129.

Remarks. This species is known from Patagonia, Burdwood Bank and the Falklands.
Ritchie also recorded it from ‘eight miles north of Dassen Island, Cape Colony’.
However, the South African material was not mentioned by Rees & Thursfield in
their revision of Ritchie’s collection and one must assume that it no longer exists.
Since the identification cannot be checked and since there are so many closely related
species of Symplectoscyphus, the record is best regarded as doubtful until such time
as it can be confirmed.

320 ANNALS OF THE SOUTH AFRICAN MUSEUM

S. filiformis is rather similar in appearance to S. arboriformis but has smaller
hydrothecae with a greater proportion adnate, and the gonotheca has very prominent
transverse ridges.

Symplectoscyphus indivisus (Bale, 1882)

Sertularella indivisa Bale, 1882: 24, pl. 12 (fig. 7).
Symplectoscyphus indivisus: Millard, 1961: 207. Ralph, 1961a: 803, fig. 15i-k.

Remarks. The only record of this species is two slides from Busk’s collection reputed
to come from Algoa Bay and identified by Millard (1961). It has not been discovered
since and as with several of Busk’s records needs confirmation before acceptance.

S. indivisus differs from other South African species of the genus in its annulated
hydrothecae.

Symplectoscyphus johnstoni (Gray, 1843)
?Sertularia gaudichaudi: Busk, 1851: 118.

Remarks. Busk recorded the presence of ‘Sertularia gaudichaudi’ in South Africa.
Since that time Billard (1922 and other papers) has shown. that Sertularia gaudichaudi
Lamouroux, 1824 is a Sertularella. Millard (1961) showed that Busk’s material, reput-
ably from Algoa Bay, is neither a Sertularia nor a Sertularella, but a species of Symplec-
toscyphus, possibly S. divaricatus (Busk, 1852) or S. johnstoni (Gray, 1843). Ralph
(1961a), in a revision of the New Zealand species of Symplectoscyphus, described and
figured the type material of both S. divaricatus and S. johnstoni. From this account it is
clear that Busk’s South African material is closer to the latter species. However,
since the material is badly preserved and the species has not been reported again, the
record is better dropped until such time as it can be confirmed.

Symplectoscyphus unilateralis (Lamouroux, 1824)

Sertularia unilateralis Lamouroux, 1824: 615, pl. 90 (figs 1-3). ?Busk, 1851: 118.
Sertularella unilateralis: Hartlaub, 1901a: 42, fig. 20.

Remarks. Busk attributed material from Algoa Bay to this species with a query.
Busk’s material could not be found in the British Museum and probably no longer
exists. The record should be dropped.

Genus Thuiaria Fleming, 1828

Diagnosis. Stem erect, bearing hydrothecae in two longitudinal rows and hydro-
cladia in whorls or in two longitudinal rows. Hydrocladia different in structure
to stem, with internodes of irregular length, often branched. Hydrotheca sessile,
partly or completely adnate, without distinct marginal teeth. Operculum of
one large, abcauline valve. Hydranth with abcauline caecum.

Type species: Sertularia thuja Linnaeus, 1758.

Remarks. The opinion of Billard (1925a: 137) is adopted that Thuiaria and

Salacia are separate species distinguished by the presence or absence respectively
of an abcauline caecum.

There are no species in South Africa which can be attributed to this genus
with any certainty.
Doubtful species
Thuiaria doliolum Kirchenpauer, 1884
Thuiaria doliolum Kirchenpauer, 1884: 27, pl. 13 (fig. 4).

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 321

Remarks. This species is insufficiently described and has not been reported again.
Kirchenpauer gives the locality as “Cape of Good Hope’. His figures suggest Salacia
articulata, in which species the gonothecae are occasionally annulated (Ritchie 1909:
fig. 6).

Leloup (1974) refers 7. doliolum to a new genus Parathuiaria created for Sertu-
lariidae with hydrothecae in opposite pairs and without operculum, but there is no
real information as to the presence or absence of an operculum or abcauline caecum.

Genus Thyroscyphus Allman, 1877
Syn. Cnidoscyphus Splettstdsser, 1929.

Diagnosis. Stem erect, branched, bearing two rows of alternate hydrothecae.
Hydrotheca pedicellate and free from stem, large, campanulate to tubular.
Margin with four teeth which may be indistinct. Operculum pyramid-shaped,
of four valves, sometimes shed early. Diaphragm present. Hydranth without
caecum but with an annular fold. Nematocysts of at least two kinds, large and
small.

Type species: Thyroscyphus ramosus Allman, 1877.

KEY TO SPECIES

1. Hydrotheca funnel-shaped, radially symmetrical or nearly so, never concave on abcau-

line side. Smaller branches zigzag .. ; T. aequalis
— Hydrotheca tubular and bilaterally symmetrical, ‘usually concave on abcauline side.
Smaller branches not zigzag a Ai, 5 Be Me T. fruticosus

Thyroscyphus aequalis Warren, 1908

Fig. 103
Thyroscyphus aequalis Warren, 1908: 344, fig. 23, pl. 48 (figs 38-40). Millard, 1964: 52, fig.
16

Thyroscyphus regularis: Jaderholm, 1923a: 5. Stechow, 1925a: 463.

Cnidoscyphus aequalis: Splettst6sser, 1929: 82, 124, figs 78-82.

Diagnosis. Stem stiff and woody, fascicled near base in larger colonies, giving
off irregularly alternate branches, reaching 400 mm in height but usually much
less. Smaller branches (hydrocladia) distinctly zigzag. The two rows of branches
and hydrothecae in one plane. Stem and branches divided into internodes by
oblique nodes sloping in alternate directions, each internode bearing a hydro-
theca on an apophysis at distal end.

Hydrothecal pedicel short, about half width of apophysis, spirally grooved.
Hydrotheca large, more or less funnel-shaped and expanding to margin, but
occasionally with slight bilateral tendencies; abcauline wall never concave;
0,8-1,3 mm in height from diaphragm and 0,4-1,2 mm in marginal diameter.
Margin with four distinct equidistant teeth and thickened ridge just below edge.
Operculum fairly persistent. Diaphragm in form of thickened perisarcal ring,
more powerfully developed on adcauline side. Hydranth with about 32 tentacles.

Large nematocysts rod-shaped, present in two batteries (adcauline and
abcauline) in distal part of ectodermal lining of hydrotheca (Fig. 81C).

322 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 103.

Thyroscyphus aequalis. A, stems; B, hydrocladium; C-—F, hydrothecae; G, male gonotheca.
Scale: A in cm, B in mm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 323

Gonothecae borne on stem apophyses, male elongated, widening towards
distal end which is obliquely truncated, smooth or roughly corrugated, with
external marsupium, reaching 2,5 mm in length and 1,5 mm in maximum
diameter. Female unknown.

Colour: opaque yellowish-white when preserved.

Variation. The nodes of the stem are usually distinct, but sometimes only faintly
indicated. Sometimes two hydrothecae arise from the same apophysis.

The spiral grooving of the hydrothecal pedicel is variable, it may reach
a maximum development of 24 turns, usually with half a turn more on the
abcauline side, or it may be barely visible. Regeneration nodes commonly
occur in the pedicel and obscure the grooving. The shape and size of the hydro-
theca vary, from a large form with a wide mouth and practically symmetrical
sides, to a smaller form with narrower mouth and protruberant adcauline wall.
The hydrotheca often possesses an extra internal ridge of perisarc at about one-
third of its height for the attachment of the annular fold of the hydranth, but
this is only present in the older hydrothecae.

Distribution outside South Africa. Tropical East Africa, Madagascar, India.
Type locality: Algoa Bay, South Africa.

Distribution in South Africa. False Bay to Mocambique, common on the
Agulhas Bank and in Natal, littoral to 219 m. 34/18 (s), 34/20 (s), 34/21 (s),
35/21 (d), 34/24 (d), 33/25 (s), 34/25 (s), 33/26 (s), 33/27 (s), 32/28 (s), 33/28 (s),
31/29 (1), 30/30 (s), 30/31 (s, d), 29/31 (s, d), 28/32 (s, d), 25/32, 25/33 (s), 24/34
(s), 24/35 (s)

Thyroscyphus fruticosus (Esper, 1793)

Fig. 104
Spongia fruticosa Esper, 1793: 188.
me ones fruticosus: Splettstésser, 1929: 7, 122, figs 1-11, 13-27. Vervoort, 1967: 35,

gs 8-9.

Diagnosis. Stem stiff and woody, unfascicled, giving off irregularly alternate
hydrocladia in one plane, reaching 130 mm, with segmentation visible on smialler
branches only, branches not zigzag. The two rows of hydrocladia and
hydrothecae in one plane.

Hydrothecal pedicel short, borne on a wide apophysis of stem from which
it is separated by a partial or complete node, unsegmented, but normally
demarcated from hydrotheca by a shallow groove on abcauline side. Hydro-
theca tubular, not expanding to margin, curved outwards, with adcauline wall
convex and abcauline wall straight or slightly concave, 0,7—-1,1 mm in abcauline
height and 0,4-0,5 mm in marginal diameter. Margin with four low, rounded
teeth and thickened ridge just below edge. Operculum shed early. Diaphragm
in form of thickened perisarcal ring, more powerfully developed on adcauline
side.

324 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 104.

Thyroscyphus fruticosus. A, hydrocladium; B, stem; C and D, hydrothecae; E, gonotheca.
Scale: B in cm, A in mm, the rest in mm/10.

Large nematocysts bean-shaped, present in body of hydranth only
(Splettstdsser).

Gonotheca arising from stem apophysis below hydrotheca, elongate-
oval, smooth, a little larger than hydrotheca, female obliquely truncated distally,
containing one egg which develops into a planula in situ. No external marsupium.

Colour: pale rose when living, yellow when preserved.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA S20

Remarks. The female gonotheca is reported to be wider and shorter than the
male.

Distribution outside South Africa. Indo-Pacific and mainly tropical, from
the Mediterranean and east coast of Africa through India and the East Indies
to Fiji and New Zealand.

Distribution in South Africa. Inhaca, Mogambique. 26/32 (1)

Family Plumulariidae

Diagnosis. Hydrothecae borne on hydrocladia and sometimes on stem as well,
always on one surface and forming a single row. Hydrotheca sessile, and at
least partly adnate, without a true diaphragm but with a definite floor, without
operculum, bilaterally symmetrical. Hydranth with a single circle of filiform
tentacles and a conical hypostome. Nematophores always present and usually
contained in nematothecae. Gonophores in the form of fixed sporosacs.

Introduction. The Plumulariidae form a fairly well-defined family, the members
being easy to recognize. But subdivision within it is not easy, as many characters
are variable both between and within species. There are four subfamilies, which,
though easily recognized by an expert, are not easily separated in a key. These
are the Halopterinae, Kirchenpaueriinae, Plumulariinae and Aglaopheniinae.
Members of a subfamily are related by a set of characters, all of which do not
necessarily occur in every genus. Thus the key on p. 329 is for convenience only;
it does not attempt to include all possible characters. The reader should turn to
the diagnoses of the subfamilies for confirmation.

Branching is very variable and complicated by the fact that some species
can exist in more than one form. The stem may be simple and unbranched,
arising directly from the hydrorhiza and bearing hydrothecae directly (in this
case the terms ‘stem’ and HYDROCLADIUM are synonymous); or the stem may
bear one order of branches (the branches are hydrocladia); or it may bear two
or more orders (the final ones are hydrocladia) (Fig. 7).

The most characteristic type of branching is the pinnate type, with alternate
or opposite hydrocladia arising from the stem or a branch thereof. Dichotomous
branching occurs in Aglaophenia pluma and whorled branching in Nemertesia.
A few genera exhibit sympodial branching. Thus, in Monostaechas the primary
simple stem (hydrocladium) branches from the posterior surface as a helicoid
sympodium, but in M. quadridens branching starts as a dichotomous sympodium
and changes more distally to a helicoid sympodium. In Thecocarpus flexuosus
the main stem gives rise to a number of scorpioid sympodia, each of which is
twisted into a spiral and bears hydrocladia.

Hydrocladia are usually simple, but may also branch. If this branching
occurs regularly it may be used as a diagnostic character, as in Monostaechas
and Schizotricha (sympodial branching) and in Oswaldella (dichotomous
branching)

326 ANNALS OF HE SOUTH AFRICAN MUSEUM

The stem may be fascicled or unfascicled. Two types of FASCICULATION
occur. In the first and most common, the stem has a single axial tube, which
alone bears the hydrocladia and is surrounded to a greater or lesser extent by
peripheral tubes. Branches may arise from the axial tube (e.g. Cladocarpus
lignosus) or from the peripheral tubes (e.g. Nemertesia ciliata).

Ay ae
\ aa

¥

A B

Fig. 105.
Plumulariidae: fascicled stems and branching. A, branching from the axial tube as in Clado-
carpus; B, branching from a peripheral tube as in Nemertesia; C, branching by separation
of similar tubes as in Corhiza.

The second type of fasciculation occurs in Corhiza, where the stem has no
special axial tube, but consists of a bundle of similar tubes, any one of which
may diverge to form a hydrocladium. Branching here is simply a separation of
groups of tubes.

Some species may exist in two growth-forms, though usually one or the
other is dominant. Thus, in Antennella secundaria the simple stem is normal,
but opposite pinnate branching of the first order may occur. In Halopteris
pseudoconstricta, Plumularia filicaulis and Gattya humilis alternate pinnate
branching of the first order is normal, though simple stems may also occur.

A number of branching species are known to have epizootic forms in which
the growth is stunted and seldom develops further than the simple stage (e.g.
Gymnangium arcuatum, G. exsertum and G. africanum). These forms when first
described were placed in separate varieties or subspecies. It is now recognized
that they are growth-forms only. Sometimes such stunted forms occur on the
normal form of the same species (AUTO-EPIZOOTIC). Oswaldella nova, so far

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 327

known only as an epizooite, is possibly such a stunted form, of which the normal
form remains to be discovered.

In most branching genera the hydrothecae are confined to the hydrocladia,
so that the stem internodes are athecate and differ from those of the hydrocladia.
But in Halopteris, Gattya and Schizotricha both the stem and the hydrocladia
bear hydrothecae. Cauline hydrothecae occur only in the Halopterinae and form
a useful diagnostic character.

A hydrocladium may bear hydrothecae on every internode (HOMOMEROUS),
or on every alternate one (HETEROMEROUS). The condition may vary in a single
colony, when the hydrocladia tend to be homomerous proximally and hetero-
merous distally due to the cutting off of short athecate internodes from the longer
thecate ones.

HINGE-JOINTS, in the form of very pronounced oblique nodes, may occur
in various parts of the colony, usually near the base of the stem, its branches or
the hydrocladia.

The hydrothecae are always bilaterally symmetrical and sessile, with the
adcauline wall partly or completely adnate to the hydrocladium. No true
diaphragm is present, but there is a definite floor to the hydrotheca perforated
by a hydropore of varying size. An intrathecal septum may be present, either
adcauline or abcauline in position, e.g. Lytocarpus and Pycnotheca.

The hydrothecal margin may be toothed (as in Gattya, Dentitheca and most
Aglaopheniinae) or untoothed. Sometimes the median abcauline tooth is
produced into a long hollow or solid spine (e.g. Thecocarpus), and sometimes
the perisarc along the abcauline wall of the hydrotheca is thickened and forms a
Keel-like ridge, which may also be produced as a spine.

Nematophores are always present, and usually they are contained in
NEMATOTHECAE. The latter are best developed in the Plumulariinae, where they
are typically movable and two-chambered, with a slender basal chamber and a
funnel-shaped distal chamber. However, the structure varies and they may be
fixed and one-chambered (some species of Halopteris) or reduced to small saucer-
shaped or scoop-shaped structures (Kirchenpaueria). The final stage in reduction
occurs in some species of Kirchenpaueria, where the nematotheca is completely
absent and the nematophore (usually termed a naked SARCOSTYLE) emerges
through a hole in the perisarc (Fig. 8).

The basic arrangement of nematothecae includes one median inferior
below each hydrotheca and one lateral on each side. In addition to, or instead
of, the latter, one or more superior nematothecae may be seated above the
level of the hydrotheca. Many variations of this pattern occur, and extra lateral
or superior nematothecae may be present.

In the Aglaopheniinae the basic three nematothecae are rigidly present;
they are always one-chambered and immovable, but often develop other com-
plexities. The laterals are fused to the side-wall of the hydrotheca and some-
times have more than one opening. The median inferior may be fused to the
abcauline face of the hydrotheca and may have an opening into it. Its distal

328 ANNALS OF THE SOUTH AFRICAN MUSEUM

2nd median Superior
1st median Superior
1st lateral

9nd lateral

- pedicel

median inferior

FRONT VIEW
SIDE VIEW

mamelon

stem

hydrocladium
cauline nematothecae

apophysis

ORIGIN OF HYDROCLADIUM

Fig. 106.
Plumulariidae: position of nematothecae.

opening may be duplicated and its distal end may be drawn out into a long tube
reaching well beyond the hydrothecal margin.

In most of the Halopterinae the laterals (or the first pair of laterals if two
are present) are seated on long pedicels fused to the side-walls of the hydrotheca.

In addition to those associated with the hydrothecae, nematothecae may
occur on athecate stems or internodes, on the peripheral tubes of fascicled
stems, on the hydrorhiza and on the gonothecae or other reproductive bodies.

Nematothecae may provide useful characters for specific diagnosis, but
it must be borne in mind that they are easily lost in dredged and preserved
material.

A structure of doubtful function, the MAMELON, is characteristic of many
Plumulariinae. It is a small nipple-like protuberance bearing a terminal opening
and is seated on the upper surface of the hydrocladia-bearing apophysis of the
stem. Its aperture communicates with the cavity between the perisarc and
coenosarc. It possibly contains a nematophore in life, or it may be concerned
with the hydrostatic pressures of the colony. In the few cases of hydroids para-
sitic on Plumulartidae (e.g. Hebella furax) the parasitic hydrorhiza appears to

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 329

gain entry through the mamelon. In the Aglaopheniinae the mamelon is well
developed and more like a reduced nematotheca in appearance.

Gonophores are always in the form of fixed sporosacs contained in gono-
thecae. Many species are dioecious and in most the gonothecae are sexually
dimorphic. In the Plumulariinae, Kirchenpaueriinae, Halopterinae and the
genus Gymnangium among the Aglaopheniinae the gonothecae are borne singly
on the stem, hydrocladia or hydrorhiza, but in other Aglaopheniinae protective
branchlets or PHYLACTOCARPS are present (Fig. 9). These may be formed as
appendages to a hydrocladium, as in Cladocarpus, or may represent modified
hydrocladia as in Lytocarpus. In the latter, hydrocladia are transformed into
phylactocarps at maturity. In L. phoeniceus, for example, every third hydro-
cladium ruptures above the level of the first hydrotheca and regenerates as a
phylactocarp. In Thecocarpus and Aglaophenia the phylactocarp, a modified
hydrocladium, forms a pod-shaped structure, the CORBULA. This consists of a
central axis and a number of lateral ribs provided with nematothecae and
arching over to enclose the gonothecae. The corbula may be open, when the
ribs remain separate, or closed, when the ribs fuse with one another. Among
the Aglaopheniinae genera are separated largely on the reproductive structures.

KEY TO SUBFAMILIES

1. Paired lateral nematothecae present and fused to hydrotheca AGLAOPHENIINAE Pp. 407
— Paired lateral nematothecae present or absent, when present not fused to hydrotheca 2

2. Paired lateral nematothecae absent. Median nematothecae usually reduced and

seldom two-chambered Bs 3 oe Bes ae KIRCHENPAUERIINAE p. 370
— Paired lateral nematothecae present. Nematothecae usually two-chambered, seldom
reduced ke i: a a By; “ mM: or -: se 3

3. Hydrocladia arising from erect stem. No cauline hydrothecae. Stem, when fascicled,
giving rise to hydrocladia from a single axial tube 578 .. PLUMULARIINAE p. 379
— Hydrocladia arising independently from the hydrorhiza or from erect stem. Stem or
branches either with cauline hydrothecae or fascicled and giving rise to hydrocladia
or pinnae from any of its component tubes on Be a HALOPTERINAE p. 329

Subfamily Halopterinae

Diagnosis. Erect stem present or absent. Hydrocladia originating (a) inde-
pendently from hydrorhiza, or (6) from a pinnate stem possessing cauline
hydrothecae, or (c) irregularly from the superficial tubes of a fascicled stem or
its branches. Branches when present bearing cauline hydrothecae. Hydrocladia
branched or unbranched. Hydrothecae generally large (over 0,2 mm in depth),
with toothed or untoothed margin. Nematothecae of variable structure, one-
or two-chambered, movable or immovable, but never fused to hydrothecae,
at least three associated with every hydrotheca, o1.e median inferior, and one
pair laterals; the laterals generally borne on pedicels which are adherent to the
hydrotheca. Gonothecae unprotected, not aggregated, usually dimorphic and
with the female bearing nematothecae.

330 ANNALS OF THE SOUTH AFRICAN MUSEUM

KEY TO GENERA

No erect stem; hydrocladia arising separately from hydrorhiza 2
Erect stem present, giving rise to hydrocladia either directly or from ‘branches: but
sometimes with a simple growth-form when hydrocladia arise separately from hydro-

rhiza (for these see key to Antennella below) ae af oe oe = Bit)
Hydrocladia unbranched .. ae 48 ee ate .. Antennella p. 330
Hydrocladia branching sumacaiky ae Re - os Monostaechas p. 362
Hydrotheca with toothed margin .. % ae as * a Gattya p. 341
Hydrotheca with untoothed margin es ao ee Sct PE5e oe riers
Hydrocladia branched ahs R: ~ is re ae: ae ae ATS
Hydrocladia unbranched .. oe 3 - ss se a - pc)
Hydrocladia branching sympodially from posterior surface (opposite side to hydro-

theca) . : Monostaechas p. 362
Hydrocladia Searenns Som anterior or ‘Jateral surface immediately below hydro-

thecae .. oP et - ne a a it Me Schizotricha p. 368

Stem fascicled and composed of tubes of equal importance, any of which may give
rise to hydrocladia or branches which are actuate arranged. Cauline hydrothecae
present on branches, not on stem et Corhiza p. 334
Stem fascicled or unfascicled; if fascicled with an j axil tube which alone bears hydro-
cladia. Hydrocladia pinnately arranged. Cauline hydrothecae present .. Halopteris p. 349

Genus Antennella Allman, 1877

Syn. Antennellopsis Jaderholm, 1896.

Diagnosis. No true stem present. Hydrecladia arising independently from
hydrorhiza, normally unbranched, unfascicled. Hydrotheca cup-shaped, with
untoothed margin.

Type species: Antennella gracilis Allman, 1877

—

Ww

KEY TO SPECIES OF ANTENNELLA AND SIMPLE FORMS OF BRANCHING GENERA

[Species not represented in South Africa are bracketed]

Hydrotheca with toothed margin .. as fi nF oe Gattya humilis
Hydrotheca with untoothed margin aE See ne i sie Reyes 72
Two pairs of lateral nematothecae . . ne a ve a Sic 53 5 eS
One pair of lateral nematothecae .. ane oe ® 3 - ae a og)
Larger pair of lateral nematothecae with wineglass-shaped distal chamber, which

has a deep emargination on adcauline wall Corhiza pannosa
Larger pair of lateral nematothecae with funnel- shaped distal chamber Se taal
No athecate internodes. Hydrotheca adnate for about 3 height. At least one superior

nematotheca present above hydrotheca .. .. Monostaechas natalensis
Intermediate athecate internodes present. Eiydrottices adnate for about 4 height. No

superior nematothecae - *F - ee - % 4 na. x eae)

Athecate intermediate internodes normally bearing one nematotheca Antennella africana
Athecate intermediate internodes normally bearing two or three nematothecae
[Antennella quadriaurita]

- Hydrocladia branching sympodially from posterior surface, the main axis formed

by the bases of successive hydrocladia .. Monostaechas quadridens

Hydrocladia normally unbranched; if branched the main axis formed by the primary
hydrocladium by:

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 331

7. Hydrotheca with free part of adcauline wall more or less straight. A one-chambered
superior nematotheca present in angle behind adcauline wall of hydrotheca

Antennella secundaria
— Hydrotheca with free part of adcauline wall distinctly hollow. No superior nemato-

thecae: .. A ate ate ee es ele od Halopteris pseudoconstricta

Antennella africana Broch, 1914

Fig. 1O7A-E
Antenella quadriaurita forma africana Broch, 1914: 26.
Antenella africana: Stechow, 1925a: 492, fig. 41.
Antennella serrata Totton, 1930: 212, fig. 53.
Antennella africana: Millard, 1957: 226. Ralph, 19616: 23, fig. la—c, f—g, k.
Diagnosis. Hydrocladia arising separately or in clusters from entwined hydro-
rhiza, often epizootic on other hydroids and found on the spider-crab, Macro-
podia falcifera (Stimpson). Hydrocladia reaching 31 mm in height, consisting
of a short basal athecate part with a variable number of transverse nodes and a
longer distal part with alternate thecate internodes terminated by transverse
nodes and athecate internodes terminated by more distinct steeply oblique nodes.
Athecate intermediate internodes normally with one median nematotheca.
Thecate internodes with five nematothecae, one median inferior and two pairs
laterals, one large and one small.

Hydrotheca cup-shaped, with more or less parallel sides, adnate for about
half adcauline length, 0,19-0,3 mm in abcauline height and 0,2-0,3 mm in
marginal diameter. Margin forming an angle of 50-60° with internode.

Median inferior nematotheca seated well below hydrotheca and not reach-
ing its base, movable, two-chambered; distal chamber scoop-shaped with low
adcauline wall. The larger lateral nematotheca seated on a finger-shaped pedicel
arising below top of adnate part of hydrotheca, not reaching thecal margin,
movable, two-chambered ; distal chamber funnel-shaped, with wall emarginated
on two sides resulting in a bivalved appearance with a large lateral valve and
a small median valve. The smaller lateral nematotheca seated in axil of pedicel
of larger one, of approximately the same length as pedicel, of the same structure
as larger one.

Gonothecae borne immediately below hydrothecae, singly or in pairs,
male and female either on separate hydrocladia, or on the same one with the
male more distal than the female. Female gonotheca large, pear-shaped, with
wide operculate distal aperture, bearing two large, two-chambered nemato-
thecae on basal region, with a pedicel of two segments. Male gonotheca smaller,
spindle-shaped and curved, with small distal aperture, bearing one large, two-
chambered nematotheca on basal region, with a pedicel of one segment.

Variation. The intermediate athecate internodes are of variable length and may
be longer than the thecate ones (usually the case in the proximal region) or
shorter (usually the case in the distal region). The number of nematothecae
on the intermediate athecate internodes is usually one in this species, though
sometimes two and rarely three. In the closely related Antennella quadriaurita

S32) ANNALS OF THE SOUTH AFRICAN MUSEUM

Ritchie from the Atlantic the number is usually two or three and rarely four.
It is possible that these two species should be combined.

Distribution outside South Africa. Tropical West Africa and New Zealand.
Type material from Setté Cama, Congo, and from Luderitz Bay, South West
Africa.

Distribution in South Africa. Abundant round the west and south coasts from
Liideritz Bay to Natal, littoral to 450 m. 26/15 (s), 32/18 (s), 33/17 (s), 33/18
(1, s), 34/18 (1, s), 34/20 (s), 34/21 (s), 34/22 (s), 34/23 (s, d), 34/24 (d), 33/25 (s),
34/25 (Ss, d), 33/26 (s,-d); 33/27 (Ss), 32/28 (Ss), 32/29 @); 28/32 @) 2732@

Antennella secundaria (Gmelin, 1791)
Fig. 107F—L

Sertularia secundaria Gmelin, 1791: 3854.
Antennella natalensis Warren, 1908: 318, fig. 14.
Antennella secundaria: Millard, 1958: 199. Millard, 1962: 274. Vervoort, 1967: 42, fig. 12.
Diagnosis. Hydrocladia reaching 12 mm in height, consisting of a short basal
athecate part with a variable number of transverse nodes and a longer distal
part with alternate thecate internodes terminated by transverse nodes (often
indistinct) and athecate internodes terminated by steeply oblique nodes, the
first oblique node forming a hinge-joint. Athecate intermediate internodes with
one or two median nematothecae. Thecate internodes with four nematothecae,
one median inferior, one pair laterals and one median superior.

Hydrotheca cup-shaped, with more or less parallel sides, adnate for about
half adcauline length, 0,15—0,2 mm in abcauline height and 0,15-0,3 mm in
marginal diameter. Margin forming an angle of 35—50° with internode.

Median inferior nematotheca seated below hydrotheca and not, or only
just, reaching its base, probably movable, two-chambered; distal chamber
scoop-shaped with reduced adcauline wall. Lateral nematotheca seated on
a finger-shaped pedicel arising on a level with top of adnate part of hydrotheca,
usually not reaching thecal margin, movable, two-chambered; distal chamber
funnel-shaped with low wall on medial side, somewhat variable in structure.
Median superior nematotheca seated behind free adcauline part of thecal wall
and not reaching margin, minute, one- or indistinctly two-chambered.

Gonothecae borne immediately below hydrothecae, singly or in pairs,
curved, pear-shaped, bearing two large, two-chambered nematothecae on
basal region, with a pedicel of two segments, male and female on the same
hydrocladium, with the male more proximal than the female. Female gonotheca
large, with a wide operculate distal aperture. Male gonotheca smaller, rounded
distally.

Variation. Antennella secundaria can on occasion produce upright pinnate
colonies similar to Halopteris, in which the internodes of the stem are similar
to those of the hydrocladia. The hydrocladia are given off alternately, except

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 333

Fig. 107.

Antennella africana. A, hydrocladium with male gonothecae; B, female gonotheca;
C-E, lateral nematothecae.

Antennella secundaria. F and G, hydrocladia, F with a proximal male and a distal female
gonotheca; H-L, lateral nematothecae.

Scale in mm/10.

334 ANNALS OF THE SOUTH AFRICAN MUSEUM

for the first two which are opposite. It can also produce branches from the
posterior surface of the hydrocladium as does Monostaechas. Only the latter
type has been seen in South Africa; there are never more than two branches to
a hydrocladium, and these arise from the basal athecate region. The main axis
is formed by the first hydrocladium and not by the bases of successive hydro-
cladia as in Monostaechas. The length of the athecate internodes is variable and
may or may not exceed that of the thecate internodes in length.

A form with extra long nematothecae (about double the height of the
hydrotheca) and shallow hydrothecae (0,11 mm abcauline height) also occurs.

Distribution. Cosmopolitan. Type locality: Mediterranean Sea.

Distribution in South Africa. Cape Agulhas on the south coast to Mocambique,
littoral to 164 m. Not common in any one locality. 35/19 (s), 35/20 (d), 34/22
(s), 34/24 (d), 33/25 (s), 34/25 (s), 33/26 (s), 33/27 (s), 32/28 (s), 33/28 (s), 30/30
(1, s), 30/31 (d), 29/31 (s), 28/32 (s), 26/32 (1, s), 24/34 (s), 24/35 (s), 21/35

Genus Corhiza Millard, 1962

Diagnosis. An erect fascicled stem present, which may be branched or
unbranched, and is composed of intercommunicating tubes of equal diameter
and importance, these tubes giving rise irregularly to hydrocladia or to branches
which bear hydrocladia. Branches, if present, bearing cauline hydrothecae
and pinnately arranged hydrocladia. Hydrocladia unbranched, occasionally
(as a secondary growth-form) arising independently from hydrorhiza. Hydro-
theca cup-shaped, with untoothed, though sometimes sinuated, margin.

Type species: Antennopsis scotiae Ritchie, 1907.

KEY TO SPECIES

1. Only one pair of lateral nematothecae .. ee ai me te x 4: Pg
— More than one pair of lateral nematothecae sa 3
2. Stem and branches giving rise directly to fdiocindine Lateral neniatotheese not
reaching thecal margin : C. mortenseni
— Stem and branches giving rise to ‘sub- branches which bear hydrocladia. Lateral
nematothecae overreaching thecal margin se : is C. valdiviae
3. Stem branching in lower region only. Branches very lone ace nematothecae
with funnel-shaped distal chamber which is not emarginated .. Be .« _Gescotiag
Branching irregular, colony short and bushy = ‘ bos De ie!
4. Two pairs of lateral nematothecae, with wineglass- shaped distal ohianitier which is
emarginated on mesial wall. One nematotheca below base of hydrotheca C. pannosa

~ More than two pairs lateral nematothecae, with distal chamber cut away on two sides,
giving a bivalve appearance. Three nematothecae below base of hydrotheca_ C-. bellicosa

Corhiza bellicosa Millard, 1962

Fig. 108A—D
Corhiza bellicosa Millard, 1962: 275, fig. 2A—-E.
Diagnosis. Colony branching irregularly, reaching a maximum height of 50 mm.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 335

Component tubes of stem and branches diverging from one another to form
hydrocladia in an irregular fashion.

Hydrocladium with a proximal region consisting of a variable number of
athecate internodes bearing a double series of nematothecae and terminated by
transverse nodes, except for the last which is terminated by an oblique node,
then thecate internodes only, separated by oblique nodes. Each thecate inter-
node bearing one hydrotheca and 11-18 nematothecae, one median inferior,
four pairs laterals and two to nine superior.

Hydrotheca deep-campanulate, almost completely adnate, deeper than
wide, with no intrathecal septum, 0,2—0,3 mm in height (in centre) and 0,16-
0,2 mm in marginal diameter. Margin even, at right angles to internode.

Nematothecae all large, two-chambered and movable; distal chamber
emarginated on two sides forming a bivalve structure with a large abcauline
valve and a smaller adcauline valve. Median inferior nematotheca seated well
below hydrotheca and not reaching its base. Lateral nematothecae: first pair
seated below hydrotheca at a slightly higher level than median inferior and just
reaching base of hydrotheca; second pair borne on finger-shaped pedicels at
sides of hydrotheca and not quite reaching thecal margin; third pair borne in
the axils of the pedicels of the second pair; fourth pair borne at the sides of the
hydrotheca between the pedicels of the second pair and the thecal margin,
overtopping thecal margin. Superior nematothecae most commonly including
two pairs, one pair seated behind free part of thecal wall and overtopping its
margin, and the other at a higher level and more laterally placed, but number
and arrangement very variable.

Gonothecae unknown.

Distribution. Endemic to South Africa. Type locality: Agulhas Bank, 33°3’S/
2h). 27 mi.

Distribution in South Africa. Agulhas Bank, between Port Elizabeth and East
London, 27-84 m, rare. 34/25 (s), 33/27 (s)

Corhiza mortenseni Millard, 1968

Fig. 108E-H
Corhiza mortenseni Millard, 1968: 274, fig. 5A—D.

Diagnosis. Colony branching in a subdichotomous manner, reaching a maximum
height of 47 mm. Component tubes of stem and branches giving rise to hydro-
cladia irregularly and on all sides. Hydrocladia forming almost a right angle
with stem.

Hydrocladium bearing hydrothecae on upper surface, consisting of up to
two long athecate and anematothecate internodes terminated by straight nodes,
one long athecate internode bearing two to four median nematothecae and
terminated by a steeply oblique node, then alternate short thecate and longer
athecate internodes terminated by straight and steeply oblique nodes respectively.

336 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 108.
Corhiza bellicosa. A and B, hydrocladia in lateral and anterior view respectively; C, stems;
D, lateral nematothecae.

Corhiza mortenseni. E, stem; F, part of fascicled stem showing origins of hydrocladia;
G and H, hydrothecae.

Scale: C and E in cm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 337

Each thecate internode bearing one hydrotheca and four nematothecae, one
median inferior, one pair laterals and one median superior. Each intermediate
athecate internode bearing two median nematothecae.

Hydrotheca cup-shaped, with parallel walls flaring slightly at margin,
adnate for about half adcauline height, with no intrathecal septum, 0,14—-0,2 mm
in abcauline height and 0,19-0,2 mm in marginal diameter. Margin even, forming
an angle of 20—40° with internode.

Nematothecae all two-chambered and movable; distal chamber funnel-
shaped, with adcauline wall lower than abcauline. Median inferior nematotheca
not reaching base of hydrotheca. Lateral nematotheca borne on finger-shaped
pedicel at side of hydrotheca and not quite reaching thecal margin. Median
superior nematotheca borne behind free part of adcauline thecal wall and not
reaching thecal margin.

Gonothecae unknown.

Distribution. Endemic to South Africa. Type locality: off Natal, 29°48,5’S/
31°18’E, 219 m.

Distribution in South Africa. East London to Natal, 88-219 m, rare. 33/27 (s),
30/31 (d), 29/31 (d)

Corhiza pannosa Millard, 1962
Fig. 109F-K
Corhiza pannosa Millard, 1962: 278, fig. 3A—B, D-G.

Diagnosis. Colony capable of producing two growth-forms, one in which
hydrocladia arise from an erect stem, and one in which hydrocladia arise
independently from the hydrorhiza, the latter often epizootic on other hydroids.
Stem branching irregularly, reaching a maximum height of 53 mm, its component
tubes giving rise to hydrocladia in an irregular fashion.

Hydrocladium consisting of two or more athecate internodes bearing a
double series of nematothecae and terminated by transverse nodes except for the
last which is terminated by an oblique node, then normally thecate internodes
terminated by oblique nodes. Each thecate internode bearing one hydrotheca
and six to eight nematothecae, one median inferior, two pairs laterals and one
to three median superior. In some regions the distal part of the thecate inter-
node cut off by a transverse node taking with it the superior nematothecae.

Hydrotheca cup-shaped, with almost parallel sides, adnate for about half
height, with no intrathecal septum, 0,3—0,5 mm in abcauline height and 0,3—
0,4 mm in marginal diameter. Margin even, forming an angle of about 50°
with internode.

Nematothecae all two-chambered and movable. Median inferior nemato-
theca seated below hydrotheca and not reaching its base; distal chamber
scoop-shaped with very low adcauline wall. First pair lateral nematothecae
seated on finger-shaped pedicels at sides of hydrotheca and not reaching thecal

338 ANNALS OF THE SOUTH AFRICAN MUSEUM

margin; distal chamber wineglass-shaped and deeply emarginated on mesial side.
Second pair lateral nematothecae seated in axils of pedicels of first pair; distal
chamber wineglass-shaped, with mesial wall lower than lateral wall.
Gonothecae borne on the hydrocladia below the hydrothecae, singly or
in pairs, male and female on the same colony, the male more distal than the
female. Female gonotheca (described as male by Millard 1962) curved pear-
shaped, with a broad distal and operculate aperture, bearing two large nemato-
thecae near base; pedicel of one segment. Male gonotheca spindle-shaped,
smaller than female, with bluntly pointed distal end; pedicel of one segment.

Distribution. Endemic to South Africa. Type locality: Agulhas Bank, 34°15’S/
23" 8 dle ane

Distribution in South Africa. From Dassen Island to East London, 11-120 m.
33/18 (s), 34/18 (s), 34/23 (s), 34/24 (d), 34/25 (s), 32/28 (s)

Corhiza scotiae (Ritchie, 1907)

Fig. 109A-E

Antennopsis scotiae Ritchie, 19076: 543, pl. 3 (fig. 3). Ritchie, 1909: 90, fig. 8.

Corhiza scotiae: Millard, 1962: 281, fig. 3C.

Diagnosis. Colony consisting of clusters of very long stems usually branching
irregularly near the base, reaching a maximum height of 330 mm. Stem and
branches thick and fascicled, the superficial tubes giving rise to hydrocladia
irregularly and on all sides. Hydrocladia close-set and forming an acute angle
with the stem.

Hydrocladium bearing hydrothecae on upper surface, consisting of two
to six athecate internodes of variable length and bearing a variable number of
nematothecae, these internodes terminated by straight nodes except for the
last which is terminated by a steeply oblique node; then alternate thecate and
athecate internodes terminated by straight and steeply oblique nodes respec-
tively. No internodal septa. Each thecate internode with one hydrotheca and
five nematothecae, one median inferior and two pairs laterals. Each intermediate
athecate internode normally with one median nematotheca.

Hydrotheca cup-shaped, with parallel walls flaring slightly at margin,
adnate for about half adcauline height, with no intrathecal septum, 0,16—-0,25
mm in abcauline height and 0,17-0,25 mm in marginal diameter. Margin even,
forming an angle of 40-60° with internode.

Nematothecae two-chambered, movable; distal chamber funnel-shaped,
not emarginated but with slightly lower adcauline wall. Median inferior nemato-
theca not reaching base of hydrotheca. One pair lateral nematothecae borne on
finger-shaped pedicels at sides of hydrotheca and not quite reaching thecal
margin; the second pair smaller and seated in the axils of the pedicels of the
first pair. Nematothecae also abundant on tubes of larger stems.

Gonothecae borne on hydrocladia below hydrothecae, male and female on

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 339

SS
fr
—

KES
SO Ss
GP

—7

/ ed

=

ESS
ile

=>,
pyr!

LP

SZ

= WEP” _pEciaieaase sania =

XID) IE lak is

er

Fig. 109.

Corhiza scotiae. A, hydrocladium with male gonothecae; B, the two lateral nematothecae
in medial (adcauline) view; C, part of fascicled stem showing origins of hydrocladia;
D, hydrocladium with female gonothecae; E, colony.

Corhiza pannosa. F, hydrocladium; G, colony; H, hydrocladium with female gonotheca;
J, the two lateral nematothecae in medial (adcauline) view; K, hydrocladium with
male gonotheca.

Scale: E and G in cm, the rest in mm/10.

340 ANNALS OF THE SOUTH AFRICAN MUSEUM

separate colonies. Female gonotheca compressed, ovate in broad view, with
truncated, operculate distal end, bearing two large nematothecae near base;
pedicel of one segment. Male gonotheca smaller, not compressed, elongate,
slightly curved, with bluntly pointed distal end; pedicel of one segment.

Variation. The intermediate athecate internodes of the hydrocladia are usually
very short and overlapped, sometimes completely, by the free part of the pre-
ceding hydrotheca, but rarely they are longer than the thecate internodes and
may then bear two median nematothecae instead of one.

In young colonies solitary hydrocladia may occur, arising directly from the
hydrorhiza.

Distribution. Endemic to South Africa. Type locality: entrance to Saldanha
Bay, 46 m.

Distribution in South Africa. From Saldanha Bay dn the west coast to East
London on the south coast, particularly common in False Bay, 18-120 m.
33/17 (s), 33/18 (s), 34/18 (s), 34/20 (s), 35/21 (d), 34/22 (s), 35/22 (d), 34/23
(s, d), 34/24 (d), 33/25 (s), 34/25 (s), 33/26 (s, d), 33/27 (s)

Corhiza valdiviae (Stechow, 1923)

Fig. 110

Heteroplon valdiviae Stechow, 1923a: 15.
Thecocaulus(?) valdiviae: Stechow, 1925a: 495, figs 42-43.
Halopteris valdiviae: Millard, 1957: 228, fig. 14B. Millard, 1962: 290, fig. 4H—J.
Diagnosis. Colony branching irregularly, reaching 370 mm. Stem and branches
stiff, thick and fascicled throughout and reaching 10 mm in diameter at base,
the component tubes diverging irregularly and on all sides to form hydrocladia-
bearing sub-branches (pinnae), without hydrothecae or nematothecae.

Sub-branches (pinnae) unfascicled or lightly fascicled; consisting of a short
basal part and a long distal thecate and hydrocladia-bearing part, the two
separated by an oblique hinge-joint; a second hinge-joint present after the first
hydrotheca. Basal part with a variable number of transverse nodes and nemato-
thecae. Distal part usually divided by oblique nodes into thecate internodes,
each bearing one hydrotheca on anterior face. An opposite pair of hydrocladia
arising by short apophyses at the sides of the first hydrotheca (i.e. between the
hinge-joints) and sometimes the second hydrotheca; remaining hydrocladia
alternate, one to each hydrotheca. Each internode with five nematothecae, one
median inferior, one pair laterals and one pair minute superior behind
hydrotheca; one or more extra nematothecae between hinge-joints.

Hydrocladium bearing hydrothecae on anterior surface, consisting of one
very short athecate and anematothecate internode terminated by a slightly
oblique node, one longer athecate internode bearing one median nematotheca
and terminated by an oblique node, then up to nine thecate internodes termi-
nated by oblique nodes. Towards tips of hydrocladia distal ends of internodes

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 341

sometimes cut off by transverse nodes to form intermediate athecate internodes.
No internodal septa. Each thecate internode with four nematothecae, one median
inferior, one pair laterals and one median superior.

Hydrotheca cup-shaped, deep, with depth normally greater than diameter,
with straight walls, adnate for about ¢ height, with no intrathecal septum,
0,17-0,2 mm in abcauline height and 0,14—0,2 mm in marginal diameter. Margin
sinuated, with high lateral walls and low adcauline wall, forming an angle of
about 60° with internode.

Median inferior nematotheca well below hydrotheca and not reaching its
base, two-chambered, possibly slightly movable; distal chamber scoop-shaped
with low adcauline wall. Lateral nematotheca borne on a triangular pedicel,
large, reaching well above thecal margin, two-chambered, movable; distal
chamber funnel-shaped, not emarginated. Superior nematotheca seated behind
free part of adcauline thecal wall and just reaching margin, minute, one-
chambered, immovable.

Male and female gonothecae borne on same colony, the female on the
sub-branches (pinnae) and the male on the hydrocladia, arising immediately
below hydrothecae, with a pedicel of one segment. Female gonotheca large,
flattened anterior-posteriorly, round to oval in front view with truncated distal
end; with three to four large nematothecae on basal part. Male gonotheca
elongate-pear-shaped, curved; with two large nematothecae on basal part.

Variation. The number of hinge-joints on the sub-branches may occasionally
be as many as four, and the hydrocladia arising between them are always in
opposite pairs. Beyond this level the normal oblique nodes may be indistinct at
first, becoming more distinct in the distal regions. The paired hydrocladia on the
first segments of the sub-branch may have three athecate internodes instead of
two at the base, of which the second and third both bear a median nematotheca.

Remarks. Due to the characteristic stem, it is necessary to transfer this species
from Halopteris to Corhiza. The appearance of the colony is very similar to
C. scotiae, differing from it in the fact that the diverging tubes of the stem form
sub-branches instead of hydrocladia.

Distribution. Endemic to South Africa. Type locality: Plettenberg Bay, 100 m.

Distribution in South Africa. Sparsely distributed round the west and south coasts
of the Cape Province, with one record from Mocambique, 4-201 m. 30/15 (d),
34/18 (s), 34/22 (s), 34/23 (s, d), 33/25 (s), 33/26 (s), 32/28 (s), 24/35 (d)

Genus Gattya Allman, 1886
Syn Paragattya Warren, 1908.

Diagnosis. An erect stem present, which may be branched or unbranched,
fascicled or unfascicled; if fascicled, with one main axial tube which bears
hydrocladia or branches. Hydrocladia pinnately arranged and borne on stem or
its branches, or (as a secondary growth-form) independently on hydrorhiza.

ANNALS OF THE SOUTH AFRICAN MUSEUM

342

Figs 110:

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gonotheca.

Scale: A in cm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 343

Hydrocladia-bearing stem or branch with cauline hydrothecae. Hydrocladia
normally unbranched. Hydrotheca cup-shaped, with toothed margin.

Type species: Gattya humilis Allman, 1886.

KEY TO SOUTH AFRICAN SPECIES

1. Hydrocladia confined to branches (pinnae), which arise from a long, lightly fascicled

stem. Hydrotheca with straight abcauline wall .. mie .. G. heurteli
— Hydrocladia borne directly on short, unfascicled and unbranched stem, or arising
independently from hydrorhiza. Abcauline wall of hydrotheca not straight .. en 74
2. Hydrotheca with four distinct marginal teeth, one adcauline, one abcauline and
two lateral .. .. G. humilis
— Hydrotheca with two distinct marginal teeth, one adcauline and one abcauline, lateral
edges sinuated - 3
3. Abcauline marginal tooth of hydrotheca acuieed iieands Stem ‘uid iyiaroelania
usually heteromerous .. G. multithecata
— Abcauline marginal tooth of hydrotheca more or - less straight, iste and hydrocladia
usually homomerous be oe x a es oe ms G. conspecta

Gattya conspecta (Billard, 1907)
Fig. 111A-C
Plumularia conspecta Billard, 19076: 81, fig. 3. Billard, 1907a: 362, fig. 11.

Diagnosis. Stem unfascicled, unbranched, reaching 11 mm in height, consisting
of a short basal part and a long distal hydrocladia-bearing part, the two
separated by an oblique hinge-joint. Basal part with a few transverse nodes and
nematothecae. Distal part divided into thecate internodes by oblique nodes.
The first internode longer and broader than the rest, terminated by a more
distinct node and bearing one pair of opposite hydrocladia; the second inter-
node also bearing a pair of opposite hydrocladia; remaining internodes bearing
alternate hydrocladia, one to each. Each internode with one cauline hydrotheca
and six to eight nematothecae, one median inferior, one pair laterals, one median
superior and one or two pairs superior. Hydrocladial apophysis arising from
process supporting lateral nematotheca. The two rows of hydrocladia not in
one plane but set on the anterior surface of the stem.

Hydrocladium bearing hydrothecae on anterior surface, consisting of one
short athecate and anematothecate internode terminated by a straight node,
one short athecate internode bearing one median nematotheca and terminated
by an oblique node, then up to six long thecate internodes terminated by oblique
nodes. Thecate internodes without septa, with four to six nematothecae, one
median inferior, one pair laterals, one median superior and usually one pair
superior.

Hydrotheca cup-shaped and indented in middle of abcauline wall which
is markedly thickened, expanding to margin, adnate for a little over half
adcauline length, with no intrathecal septum, 0,16-0,20 mm in abcauline depth
and 0,19-0,2 mm in marginal diameter. Margin forming an angle of about 40°
with internode, with one strong abcauline tooth, one smaller adcauline tooth

344 ANNALS OF THE SOUTH AFRICAN MUSEUM

and sinuated margins which are deeply indented next to the abcauline tooth.

Median inferior nematotheca borne immediately below hydrotheca and
overreaching thecal base; two-chambered, immovable, distal chamber scoop-
shaped with no adcauline wall. Lateral nematotheca borne on long finger
shaped pedicel which reaches to level of thecal margin, two-chambered, movable;
distal chamber beaker-shaped and emarginated right to the base on medial side.
Median superior nematotheca situated behind free part of adcauline thecal wall
and usually pressed close against it, not reaching thecal margin, two-chambered,
with very short basal chamber and beaker-shaped distal chamber which is
deeply emarginated on adthecal side. Paired superior nematothecae seated
above median superior; those of hydrocladium smaller than median superior,
curved away from hydrotheca, situated behind free part of thecal wall; those of
stem larger, less curved and sometimes overreaching thecal margin; two-
chambered, movable.

Gonotheca (described here for the first time) borne on stem below hydro-
theca, whelk-shaped, with oblique aperture directed away from stem, with up to
five nematothecae on basal part, sex unknown.

Variation. Very rarely the distal part of an internode may be cut off by a trans-
verse node to form a short athecate intermediate internode. This may occur on
the stem or on the hydrocladia and the athecate internode takes with it a pair of
superior nematothecae. The last internode of a hydrocladium always terminates
at the level of the transverse node and lacks paired superior nematothecae.

Distribution outside South Africa. Madagascar. Type locality: Fort Dauphin.

Distribution in South Africa. One record only, off Scottburgh, Natal in 6-12 m.
30/30 (s)

Gattya heurteli (Billard, 1907)

Fig. 111J—L
Plumularia Heurteli Billard, 1907a: 360, figs 9-10.
Plumularia quadridentata Jarvis, 1922: 348, p.. 26 (fig. 22).
Paragattya heurteli: Millard, 1958: 208, fig. 10E.
Diagnosis. Main stem lightly fascicled at base, long and flexuous, reaching 180
mm, branching sparsely and irregularly. Axial tube of stem and branches
divided into internodes of irregular length by transverse nodes, giving rise to
alternate sub-branches (pinnae) at irregular intervals, without hydrothecae or
nematothecae.

Sub-branches (pinnae) unfascicled, consisting of a short basal part and a
long distal and hydrocladia-bearing part, the two separated by an oblique hinge-
joint. Basal part bearing 1-3 median nematothecae, often not sharply demarcated
from apophysis of stem. Distal part divided into internodes by oblique nodes.
The first internode thicker than the rest, terminated by a more distinct node and
bearing one pair of opposite hydrocladia; remaining internodes bearing alter-
nate hydrocladia, one to each. Each internode of distal part with one cauline

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 345

=F
NS
lames

eS
a
V

SS
X

Oo
LG

os
.
¢

e
4

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ae
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o Z
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ae

Fig. 111.

Gattya conspecta. A, stem in anterior view, including first internode and hinge-joint;
B, hydrocladium; C, gonotheca.

Gattya humilis. D and E, male and female gonophores respectively, the latter with planula;
F, pinnate stem in anterior view; G, hydrothecae; H, colony with pinnate and simple
stems.

Gattya heurteli. J, colony; K, anterior view of sub-branch (pinna); L, hydrothecae.

Scale: H and J in cm, the rest in mm/10.

346 ANNALS OF THE SOUTH AFRICAN MUSEUM

hydrotheca and four nematothecae, one median inferior, one pair laterals and
one median superior. Hydrocladial apophysis arising from process supporting
lateral nematotheca. The two rows of hydrocladia not in one plane but set on
the anterior surface of the pinna.

Hydrocladium bearing hydrothecae on anterior surface, consisting of one
short athecate internode, then up to five thecate internodes terminated by oblique
nodes. Thecate internodes without internodal septa, with four nematothecae,
one median inferior, one pair laterals and one median superior.

Hydrotheca deep cup-shaped, expanding slightly to margin, adnate for
over half adcauline length, abcauline wall straight, with no intrathecal septum,
0,12-0,3 mm in abcauline depth and 0,16—0,2 mm in marginal diameter. Margin
forming an angle of 50—60° with internode, with four marginal teeth, one median
abcauline, one median adcauline and one pair laterals, the lateral teeth closer
to the abcauline side.

Median inferior nematotheca well below hydrotheca, with margin not,
or only just, reaching thecal base; two-chambered, but basal chamber small,
immovable and not distinctly demarcated from internode, distal chamber scoop-
shaped, with no adcauline wall. Lateral nematotheca borne on a finger-shaped
pedicel, overtopping thecal margin, two-chambered, movable; distal chamber
flattened and deeply cut away at the narrow ends giving a bivalved appearance.
Median superior nematotheca seated behind free part of adcauline thecal wall
and not reaching margin, one-chambered, hook-shaped, immovable. Median
nematotheca on basal part of pinna similar to median inferior, but movable
and with longer basal chamber.

Gonophores unknown.

Variation. The two rows of sub-branches (pinnae) may be in one plane on the
stem, or the whole may be twisted in a loose spiral giving an irregular effect.
The basal part of the pinna may have 1-4 indistinct nodes, the last internode
being the longest and bearing the nematothecae.

Distribution outside South Africa. Tropical East Africa. Type locality: Macalonga
in Mocgambique, 22 m.

Distribution in South Africa. Natal and Mocgambique, 22-66 m, with one doubtful
record from Cape Town. ?33/18, 30/30 (s), 29/31 (s), 28/32 (s), 25/33 (s), 24/34 (s)

Gattya humilis Allman, 1886
Fig. 111D-H

Gattya humilis Allman, 1886: 156, pl. 24 (figs 5-7). Millard, 1962: 281.
Paragattya intermedia Warren, 1908: 323, fig. 16, pl. 47 (fig. 27).
Diagnosis. Hydrorhiza creeping, usually on weed. Colony capable of producing
two growth-forms, one in which hydrocladia arise from an erect stem, and one
in which hydrocladia arise independently from the hydrorhiza. Stem unfascicled,
unbranched, reaching 30 mm in height, consisting of a short basal part and a

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 347

long distal and hydrocladia-bearing part, the two separated by an oblique hinge-
joint. Basal part with 1-4 transverse nodes and sometimes one median nemato-
theca. Distal part divided into internodes by oblique nodes. The first internode
thicker than the rest, terminated by a more distinct node and bearing one pair
of opposite hydrocladia; remaining internodes bearing alternate hydrocladia,
one to each. Each internode with one cauline hydrotheca and four nemato-
thecae, one median inferior, one pair laterals and one median superior. Hydro-
cladial apophysis arising from process supporting lateral nematotheca. The
two rows of hydrocladia not in one plane but set on the anterior surface of the
stem.

Hydrocladium bearing hydrothecae on anterior surface, consisting of one
or two short athecate internodes, then up to three thecate internodes terminated
by oblique nodes. Thecate internodes without septa, with four nematothecae,
one median inferior, one pair laterals and one median superior.

Hydrotheca cup-shaped and deep, expanding to margin, adnate for about
half adcauline length, abcauline wall with a slight, but distinct, double curvature,
with no intrathecal septum, 0,19-0,3 mm in abcauline depth and 0,18-0,3 mm
in marginal diameter. Margin forming an angle of 50—60° with internode, with
four marginal teeth, one median adcauline, one median abcauline and one pair
laterals, the lateral teeth closer to the abcauline side.

Median inferior nematotheca immediately below hydrotheca, with margin
overreaching thecal base; two-chambered, but basal chamber small and
immovable, distal chamber scoop-shaped, with no adcauline wall. Lateral
nematotheca borne on a finger-shaped pedicel, overtopping thecal margin,
two-chambered, movable; distal chamber flattened, and deeply cut away at
the narrow ends giving a bivalved appearance. Median superior nematotheca
seated behind free part of adcauline thecal wall and not reaching margin, one-
chambered, similar in shape to the laterals.

Gonotheca borne on stem, and rarely on hydrocladium, immediately
below hydrotheca and on one side, pear-shaped, with two large nematothecae
on basal part, male and female on same stem but male more distal than female.
Female truncated distally and with a large terminal operculate aperture,
containing one egg which develops into a planula in situ. Male rounded distally,
with a small apical pore.

Variation. The species occurs commonly on coralline algae, but has also been
found on a sponge and on the crab, Dehaanius dentatus (M. Edw.).

Examples have been seen in which the hydrocladia branch in a similar
way to the stem. Other minor variations include the occurrence of intermediate
athecate internodes in the hydrocladia (Stechow 1925a), and a secondary point
to the lateral marginal tooth of the hydrotheca (Warren 1908).

Distribution. Endemic to South Africa. Type locality: ?Port Elizabeth.

Distribution in South Africa. Northern South West Africa on the west to Natal,

348 ANNALS OF THE SOUTH AFRICAN MUSEUM

littoral to 70 m. [19/12 (1)], 32/18 (s), 33/17 (1), 33/18 (1, s), 34/18 (1, s), 34/22 (s),
34/23, 33/25, 34/25 (s), 33/26 (s), 33/27 (1, s), 32/28 (s), 31/29 (I), 31/30 (),
30/30 (1)

Gattya multithecata (Jarvis, 1922)
Fig. 112A-B
Plumularia multithecata Jarvis, 1922: 346, pl. 25 (fig. 19).

Diagnosis. Stem unfascicled, unbranched, reaching 14 mm in height, consisting
of a short basal part and a long distal hydrocladia-bearing part, the two sepa-
rated by an oblique hinge-joint. Basal part with a few transverse nodes and
scattered nematothecae. Distal part divided by oblique nodes into thecate
internodes, of which the terminal part is often cut off by a transverse node to
form an intermediate athecate internode. The first thecate internode longer
and broader than the rest and bearing one pair of opposite hydrocladia; the
second thecate internode also bearing one pair of opposite hydrocladia; remain-
ing thecate internodes bearing alternate hydrocladia, one to each. Five to nine
nematothecae to each hydrotheca, one median inferior, one pair laterals, and
one to three pairs of superior; the last pair of superior seated on the following
athecate internode when this is present. Hydrocladial apophysis arising from
process supporting lateral nematotheca. The two rows of hydrocladia not in
one plane but set on the anterior surface of the stem.

Hydrocladium bearing hydrothecae on anterior surface, consisting of one
short athecate and anematothecate internode terminated by a straight node,
one short athecate internode bearing one median nematotheca and terminated
by an oblique node, then usually alternate long thecate internodes terminated
by straight nodes and short athecate intermediate internodes terminated by
oblique nodes. Up to nine hydrothecae to a hydrocladium. Thecate internodes
without septa, with four nematothecae, one median inferior, one pair laterals
and one median superior. Athecate intermediate internodes with one pair of
nematothecae.

Hydrotheca cup-shaped and deep, expanding to margin, adnate for a little
over half adcauline length, with no intrathecal septum, 0,2-0,3 mm in abcauline
depth and 0,18-0,2 mm in marginal diameter. Margin forming an angle of
about 40° with internode, with one strong inturned abcauline tooth, one smaller
adcauline tooth and sinuated lateral margins.

Median inferior nematotheca borne immediately below hydrotheca and
Overreaching thecal base; two-chambered, immovable, distal chamber scoop-
shaped with no adcauline wall. Lateral nematotheca borne on long, curved,
pedicel which reaches to level of thecal margin, two-chambered, movable;
distal chamber beaker-shaped; the whole emarginated to base of proximal
chamber on mesial side. Median superior nematotheca situated behind free
part of adcauline thecal wall, minute, two-chambered, with very short basal
chamber. Paired superior nematothecae of stem and nematothecae of athecate

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 349

internodes larger than median superior, curved, two-chambered, movable.
Gonothecae unknown.

Variation. The presence or absence of athecate intermediate internodes is
variable within the single colony known from the country. They are often present
on the stem, almost invariably on the hydrocladia. They are reported as present
in the type material.

Distribution outside South Africa. Tropical East Africa. Type localities: Zanzibar
and Wasin.

Distribution in South Africa. One record only, off Scottburgh, Natal in 6-12 m.
30/30 (s)

Genus Halopteris Allman, 1877

Syn. Heteroplon Allman, 1883.

Acladia Marktanner-Turneretscher, 1890.

Thecocaulus Bale, 1915.
Diagnosis. An erect stem present, usually (always, in South African species)
unfascicled and unbranched, if fascicled with one main axial tube, usually with
hinge-joints in basal region, bearing pinnately arranged hydrocladia and cauline
hydrothecae. Hydrocladia alternate or in opposite pairs, but usually with at
least the first one or two pairs opposite, sometimes (as a secondary growth-form)
arising independently from hydrorhiza, normally unbranched. Hydrotheca
cup-shaped, with untoothed margin.

Type species: Halopteris carinata Allman, 1877.

KEY TO SPECIES

(For simple forms see also under Antennella, p. 330)
1. Stem heteromerous, with alternate thecate, hydrocladiate internodes and athecate,

ahydrocladiate internodes .. 2
— Stem normally homomerous, with all internodes thecate and hydrocladiate; ‘may be
unsegmented .. oe vel a de big ne sits aa seis fy

2. Hydrotheca with even margin; free part of adcauline wall concave Hf. pseudoconstricta
Hydrotheca raised into a beak-like process on abcauline edge; free part of adcauline
wall straight .. Bs ~ be We ae ait = es H. rostrata

3. All hydrocladia in opposite pairs. Lateral nematothecae one-chambered JH. gemellipara
Hydrocladia alternate (except for the first one or two pairs which may be opposite).
Lateral nematothecae two-chambered . .

4. Lateral nematotheca with distal chamber wineglass-shaped and deeply emarginated
on mesial side i H. glutinosa
— Lateral nematotheca with distal chamber funnel- shaped and not deeply emarginated,
though the mesial edge may be lower than the lateral edge =f a Ets

5. No superior nematothecae on hydrocladial internodes .. a H. tuba
Two superior nematothecae on hydrocladial internodes, one behind hydrotheca and
one above it, the latter sometimes cut off on a separate athecate internode H. polymorpha

350 ANNALS OF THE SOUTH AFRICAN MUSEUM

he!
a)

é
Woke iS
(
oc

ies,

ibe

es (S
fe

co.

“y
(s
(cane
.

S
=

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Jere) J,

Gattya multithecata. A, stem in anterior view; B, hydrothecae.
Halopteris gemellipara. C, hydrothecae; D, stem in anterior view; E, lateral nematotheca;
F, stem.
Halopteris polymorpha. G and H, lateral nematothecae; J, stem; K, hydrothecae; L, stem
in anterior view.
Scale: F and J in cm, the rest in mm/10.

MONUGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 351

Halopteris gemellipara Millard, 1962
Fig. 112C—F
Halopteris gemellipara Millard, 1962: 283, fig. 4A—F.

Diagnosis. Stem reaching 60 mm in height, consisting of an athecate basal
part and a distal thecate and hydrocladia-bearing part. No hinge-joints. Basal
part with a variable number of transverse nodes and median nematothecae.
Distal part divided into long thecate internodes by oblique nodes. Cauline
hydrothecae in one row on front of stem, one on the proximal part of each
internode. Hydrocladia in opposite pairs, one pair to each internode, arising
from the sides of the hydrothecae by short apophyses. Each internode with
five to seven nematothecae, one median inferior, one pair laterals and two to
four median superior.

Hydrocladium bearing hydrothecae on upper surface, consisting of one
short athecate internode bearing one median nematotheca and then up to 11
thecate internodes terminated by oblique nodes. No internodal septa. Each
thecate internode with three to four nematothecae, one median inferior, one pair
laterals, and sometimes one median superior.

Hydrotheca cup-shaped, adnate for 4-3? height (usually about 3), with
parallel walls flaring slightly to margin, with no intrathecal septum, 0,2—-0,5 mm
in abcauline height and 0,2-0,3 mm in marginal diameter. Margin forming an
angle of 50—70° with internode.

Median inferior nematotheca not reaching base of hydrotheca, two-
chambered, immovable; basal chamber smaller than distal and not distinctly
demarcated from internode; distal chamber scoop-shaped, with no adcauline
wall. Lateral nematotheca borne on low protuberance of internode, not reaching
thecal margin, minute, immovable, one-chambered, with emarginated mesial
wall. Median superior nematotheca, when present, seated above level of thecal
margin, similar to median inferior but with more convex abcauline wall, those of
stem larger than those of hydrocladium.

Gonothecae unknown.

Variation. Occasionally the distal end of a thecate internode may be cut off by a
transverse node to form an intermediate athecate internode. This is more com-
mon near the distal ends of the hydrocladia. One stem has been seen bearing
a pair of hydrocladia on the posterior surface in addition to those on the anterior
surface.

The hydrotheca may have a diameter more or less equal to the height and
be set at a comparatively wide angle to the internode, or it may have a diameter
of about half the height and be set almost parallel to the internode.

Distribution. Endemic to South Africa. Type locality: Agulhas Bank, 33°54'S/
26°51 E, 120 m.

Distribution in South Africa. South-east coast, from Port Elizabeth to Durban,
49-120 m. 34/25 (s), 33/26 (d), 33/27 (s), 32/28 (s), 29/31 (s)

352 ANNALS OF THE SOUTH AFRICAN MUSEUM

Halopteris glutinosa (Lamouroux, 1816)

Fig. 113

Aglaophenia Glutinosa Lamouroux, 1816: 171.

Heteroplon pluma Allman, 1883: 32, pl. 8 (figs 1-3).

Plumularia glutinosa: Billard, 1910: 36, fig. 16.

Plumularia alternata: Jarvis, 1922: 345, pl. 25 (fig. 16).

Plumularia (Heteroplon) glutinosa: Stechow, 1925a: 502.

Halopteris glutinosa: Millard, 1958: 200, fig. 1OA—D. Millard, 1962: 285, fig. 4K.
Diagnosis. Stem capable of reaching 180 mm though more commonly 10-40
mm, consisting of an athecate basal part and a distal thecate and hydrocladia-
bearing part, the two sometimes separated by an oblique hinge-joint, a second
hinge-joint sometimes present after the first hydrotheca. Basal part with a
variable number of transverse nodes and nematothecae. Distal part usually
divided into thecate internodes by oblique nodes. Cauline hydrothecae usually
in one row on front of stem, one to an internode. One or two pairs of opposite
hydrocladia arising by short apophyses at the sides of the first one or two hydro-
thecae; remaining hydrocladia alternate, one to each hydrotheca. At least four
nematothecae to each internode, one median inferior, one pair laterals, one
median superior; one to three extra pairs of laterals and one to two extra median
superior sometimes present.

Hydrocladium bearing hydrothecae obliquely (intermediate between upper
and anterior surface), consisting of one very short athecate and anematothecate
internode terminated by a slightly oblique node, one longer athecate internode
bearing one median nematotheca and terminated by a steeply oblique node,
and then up to 15 thecate internodes terminated by oblique nodes. No internodal
septa. Each thecate internode with three to six nematothecae, one median
inferior, one pair laterals, up to two, or rarely three, median superior.

Hydrotheca cup-shaped, adnate for 4-2 height, with walls straight or flaring
slightly to margin, with no intrathecal septum, 0,15-0,3 mm in abcauline height
and 0,19-0,4 mm in marginal diameter. Margin forming an angle of 30—60°
with internode.

Median inferior nematotheca not, or only just, reaching base of hydrotheca,
two-chambered, with basal chamber immovable and not sharply demarcated
from internode, distal chamber scoop-shaped, with no adcauline wall. Lateral
nematotheca borne on finger-shaped pedicel, not quite reaching thecal margin,
two-chambered, movable; distal chamber wineglass-shaped and deeply emar-
ginated on mesial side. Superior nematotheca seated behind free part of
adcauline thecal wall, variable in structure and size, one- or two-chambered.

Male and female gonothecae borne on same colony, the female on the
stem and the male on the hydrocladia, arising immediately below hydrotheca.
Female gonotheca large, flattened antero-posteriorly, elongate-oval in front view,
with broad distal aperture; with two to five large nematothecae on basal part;
pedicel of one segment. Male gonotheca spindle-shaped.

Variation. This is one of the most variable species of Halopterinae, and its

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 353

B

a
aa
Sa
para
a

Fig. 113.

Halopteris glutinosa. A, stem in anterior view; B, lateral nematotheca; C, stems; D, female

gonotheca; E, male gonotheca; F, hydrocladium.
Scale: C in cm, the rest in mm/10.

354 ANNALS OF THE SOUTH AFRICAN MUSEUM

most useful diagnostic character is the structure and size of the lateral
nematotheca.

The stem varies greatly in length and thickness, and in the older, thicker
stems nodes may be absent and the hydrothecae may be displaced alternately
to left and right. In some stems nodes occur after every two hydrothecae. Some-
times extra hinge-joints, probably due to regeneration after injury, occur in the
basal part of the stem.

In the distal region of both stem and hydrocladia the distal ends of the
internodes may be cut off by transverse nodes above the level of the hydrotheca
to form intermediate athecate internodes. These may carry one median
nematotheca. Several examples of branched hydrocladia have been observed.

The hydrothecae are also extremely variable in size, though their shape
and proportion remains constant.

Distribution outside South Africa. Bass Strait, South Australia; Gulf of Aqaba;
tropical East Africa. Type locality: “Mers des Indes et de |’Australasie’.

Distribution in South Africa. Fairly common on south and east coasts, from off
Still Bay to Inhaca in Mocambique, littoral to 411 m. 34/21, 35/21 (d), 34/22 (s),
34/24 (d), 33/25 (s), 34/25 (s, d), 33/26 (s), 33/27 (Ss), 32/28 (s), 33/28 (s), 31/29
(s), 30/30 (s), 29/31 (1, s, d), 28/32 (s, d), 26/32 (, s)

Halopteris polymorpha (Billard, 1913)
Fig. 112G—-L

Plumularia polymorpha Billard, 1913: 24, figs 14-15.

Halopteris polymorpha: Vervoort, 19665: 132, fig. 35. Millard & Bouillon, 1973: 83, fig. 10F—J.
Diagnosis. Stem reaching 82 mm in height, consisting of an athecate basal
part and a distal thecate and hydrocladia-bearing part, the two separated
by an oblique hinge-joint, a second hinge-joint usually present after the first
hydrotheca. Basal part with a variable number of transverse nodes and nemato-
thecae. Distal part divided into thecate internodes by oblique nodes. Cauline
hydrothecae in one row on front of stem, one to each internode. Hydrocladia
alternate, one arising by a short apophysis at the side of each hydrotheca;
usually a pair of opposite hydrocladia on the first and second thecate internodes.
At least five nematothecae to each internode one median inferior, one palit
laterals and two median superior; one or more extra pairs often present above
level of hydrotheca.

Hydrocladium bearing hydrothecae on anterior surface, consisting of
one short athecate and anematothecate internode terminated by a straight node,
one long athecate internode bearing one median nematotheca and terminated
by a steeply oblique node, then up to nine thecate internodes terminated by
oblique nodes. No internodal septa. Each thecate internode with five nemato-
thecae, one median inferior, one pair laterals and one or two median superior.
The distal part of the thecate internode often cut off as a separate athecate

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 355

intermediate internode, carrying with it the second median superior nema-
totheca.

Hydrotheca cup-shaped, adnate for 3—3 height, with straight walls widening
slightly to margin, with no intrathecal septum, 0,17—0,3 mm in abcauline height
and 0,18—0,3 mm in marginal diameter. Margin forming an angle of about 50°
with internode. :

Median inferior nematotheca not, or only just, reaching base of hydrotheca,
two-chambered, immovable; distal chamber scoop-shaped, with no adcauline
wall. Lateral nematotheca borne on finger-shaped pedicel, reaching approxi-
mately to thecal margin or above it, two-chambered, movable; distal chamber
funnel-shaped, with lower mesial wall. First superior nematotheca behind free
part of adcauline thecal wall, minute, one-chambered, immovable. Second
superior nematotheca seated behind or above thecal margin, two-chambered,
movable; distal chamber scoop-shaped with low adcauline wall.

Gonothecae arising immediately below hydrothecae, with curved pedicel
of one segment. Female large, flattened, pear-shaped in broad view, bearing
two nematothecae, containing one egg. Male smaller, curved-oval, bearing
one nematotheca.

Variation. Billard has commented on the variability of this species and this is
substantiated by the few samples known from South Africa. The most obvious
variation is the presence or absence of a node separating off an intermediate
internode from the distal end of a thecate internode. Normally such nodes
occur only in the hydrocladia, but rarely also in the distal end of the stem.
The first athecate internode of the hydrocladium may not be distinctly demar-
cated from the second, as in Vervoort’s material. Several branching hydrocladia
have been seen. Up to five pairs of opposite hydrocladia may occur at base of
stem.

The proportions of the hydrothecae vary, sometimes they are deeper than
wide, and sometimes wider than deep, both shapes illustrated by Billard (fig.
14) occurring. The first superior nematotheca behind the thecal wall is sometimes
absent on the hydrocladia.

Distribution outside South Africa. Indian Ocean: Borneo Bank and south of
Island of Rotti (type locality), East Indies, Seychelles, Red Sea. Pacific Ocean:
New Caledonia.

Distribution in South Africa. Natal to Mocambique, littoral to 495 m. 29/31
(Gare) 29) 3258) 28/326) 27/32. (@)5, 26/325, 25/32, 21/35

Halopteris pseudoconstricta sp. nov.

Fig. 114D-G

Halopteris constricta: Millard, 1957: 227, fig. 14A. Millard, 1962: 282, fig. 4G. Millard, 19665:
493.
non Halopteris constricta Totton, 1930: 217, fig. 56a. Ralph 19615: 43, fig. 6a.

Type. Designated holotype: SAM-—H542: material from intertidal region at

356 ANNALS OF THE SOUTH AFRICAN MUSEUM

Melkbosstrand, Table Bay, collected 17/11/67. Numerous pinnate stems bearing
female gonophores and reaching a maximum height of 7 mm. Simple forms
also present and a few pinnate stems with branched hydrocladia.

Diagnosis. Colony capable of producing two growth-forms, one in which
hydrocladia arise from an erect stem, and one in which hydrocladia arise
independently from the hydrorhiza. Stem reaching 9 mm in height, consisting
of a short basal part and a long distal and hydrocladia-bearing part, the two
separated by an oblique hinge-joint. Basal part with a variable number of trans-
verse nodes and median nematothecae. Distal part divided into alternate thecate
and athecate internodes terminated by straight and steeply oblique nodes
respectively. Hydrocladia alternate, one to each thecate internode, with some-
times an opposite pair on the first and second thecate internodes, arising from
the pedicels of the lateral nematothecae. Thecate internodes with three or four
nematothecae, one median inferior, one pair laterals and sometimes one median
superior; athecate internodes with one or two median nematothecae.

Hydrocladium bearing up to six hydrothecae on anterior surface, con-
sisting of one or two short athecate and anematothecate internodes terminated
by slightly oblique nodes, one longer athecate internode bearing one or two
median nematothecae and terminated by a steeply oblique node, and then
alternate long thecate and short athecate internodes terminated by straight
and oblique nodes respectively. No internodal septa. Each thecate internode
with three nematothecae, one median inferior and one pair laterals. Each
athecate internode with one, and sometimes two median nematothecae.

Hydrotheca cup-shaped, adnate for 4-3 height, with straight abcauline
wall and with distinct concavity in free part of adcauline wall, with no intra-
thecal septum, 0,14-0,20 mm in abcauline height and 0,09-0,17 mm in marginal
diameter. Margin forming an angle of 40—60° with internode.

Median inferior nematotheca not reaching base of hydrotheca, two-
chambered, with basal chamber immovable and not distinctly demarcated
from internode, distal chamber scoop-shaped, with low adcauline wall. Lateral
nematotheca borne on a short papilla-shaped pedicel, not quite reaching thecal
margin, two-chambered, movable; distal chamber funnel-shaped, not emargi-
nated but with a lower mesial wall. Median superior nematotheca, when
present, seated behind free part of adcauline thecal wall, this and the nemato-
thecae on athecate intermediate internodes two-chambered, movable.

Female gonothecae borne on stem or hydrocladia immediately below hydro-
thecae singly or in pairs, laterally compressed, curved-pear-shaped in side
view, with broad distal aperture facing towards stem, containing one egg on
side of blastostyle which develops into a planula in situ; with two large nemato-
thecae on basal part; reaching 0,66 mm in length and 0,40 mm in maximum
diameter. Pedicel of one segment. Male gonotheca unknown.

Variation. In addition to the variations included in the diagnosis, pinnate stems
have been seen with hydrocladia which branch in a similar manner to the stem.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA S57

The margin of the hydrotheca is sometimes thickened on the abcauline
side, and may also be narrowed.

In some cases the distal part of a thecate hydrocladial internode*may be
cut off as an extra athecate internode.

Remarks. This material was previously assigned to Halopteris constricta, a
species first described by Totton from infertile material from New Zealand.
The female gonophores were described by Ralph (19615). These are curved in a
sigmoid manner and have their apertures directed away from the stem. At
this stage a paper was already in the press by the present author describing
female gonophores in the South African material. These are pear-shaped and
have their apertures directed towards the stem. On the basis of this difference
in the gonophores it is now necessary to create a new species for the South
African material. There is little to distinguish the trophosomes of the two
species, but neither simple forms nor branched hydrocladia have been observed
in the New Zealand material.

Distribution outside South Africa. Angola and Vema Seamount (South Atlantic).

Distribution in South Africa. Table Bay to Transkei coast, littoral to 19 m.
33/18 (1), 34/18 (1, s), 34/22 (s), 34/25 (s), 31/29 (1)

Halopteris rostrata sp. nov.
Fig. 114A—C

Material. The holotype, SAM—H543, consists of a colony of 11 complete stems
and a number of damaged ones growing over the skeleton of an antipatharian
coral. Position: off Natal, 29°11’S/32°02’E, 70 m, 30/7/1964.

Description. Hydrorhiza creeping and branching, giving rise to erect stems.
Stems unfascicled, unbranched, the tallest 11 mm in height, with a short basal
part devoid of hydrothecae and hydrocladia but sometimes with one or two
nematothecae, and a longer distal part bearing hydrocladia and hydrothecae.
No hinge-joints. Distal part divided into regularly alternate long thecate and
short athecate internodes terminated by straight and oblique nodes respectively,
the first thecate internode bearing a pair of opposite hydrocladia arising from
the sides of the hydrotheca, remaining hydrocladia alternate, one from the
side of each hydrotheca alternately on the left and the right. Stem geniculate
in terminal part. Hydrothecae in one row on front of stem, but with their
apertures directed alternately to left and right (to the same side as the corres-
ponding hydrocladium). Each thecate internode with three nematothecae, one
median inferior and one pair laterals, of which one is in the axil of the
hydrocladium. Each athecate internode with one median nematotheca.
Hydrocladium bearing one to five hydrothecae on anterior face, with one
short athecate and anematothecate internode terminated by a slightly oblique
node, then alternate short athecate and long thecate internodes terminated by
oblique and straight nodes respectively. Each thecate internode with one hydro-

358 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 114.

Halopteris rostrata sp. nov., all from holotype. A, hydrothecae; B, lateral nematotheca in
medial view; C, stem in anterior view (the basal pair of hydrocladia broken off).
Halopteris pseudoconstricta sp. nov. D, hydrocladium; E, stem in anterior view; F, lateral

nematotheca; G, female gonothecae.
Scale in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 359

theca and three nematothecae, one median inferior and one pair laterals. Each
athecate internode, other than the first, with one median nematotheca.

Hydrotheca cup-shaped in side view, with straight walls widening to
margin, more or less conical in anterior view, adnate for about half height and
with free part of adcauline wall overlapping subsequent athecate internode.
Margin forming an angle of 50-60° with internode, more or less even on pos-
terior and lateral edges, but rising into a beak-like lobe on anterior (abcauline)
edge; abcauline edge sometimes thickened.

Median inferior nematotheca seated below hydrotheca and reaching
approximately to the level of its base, though sometimes a little above or below,
two-chambered, immovable; basal chamber small and inconspicuous; distal
chamber scoop-shaped, with no adcauline wall. Lateral nematotheca seated on
a short, rounded process applied to the lateral wall of the hydrotheca, just, or
not quite, reaching thecal margin, two-chambered, movable; basal chamber
shorter than distal; distal chamber wineglass-shaped, with very deep emargina-
tion on mesial surface. Lateral nematothecae of stem shorter than those on
hydrocladia and not reaching thecal margin. Median nematotheca of athecate
internode two-chambered, movable, often obscured by adcauline wall of hydro-
theca, basal and distal chamber of approximately equal size; distal chamber
scoop-shaped, with low adcauline wall.

Gonothecae absent.

Measurements (mm)

Hydrocladium, thecate internode, length a id be .. 0,29-0,38
athecate internode other than first, length i ih .. 0,12-0,17
Hydrotheca, depth abcauline A ie iy re i: .. 0,17-0,29
diameter at margin .. dd — an fe oe .. 0,23-0,34
free part adcauline wall/abcauline height .. oe Ag, .. 0,31-0,59
Lateral nematotheca, length ft 1 ae ae = .. 0,09-0,12

Remarks. The shape of the hydrotheca is reminiscent of that in H. carinata
Allman, 1877, Gattya multithecata (Jarvis, 1922) and Gattya trebilcocki Watson,
1973. All of these have lateral nematothecae overtopping the thecal margin and
seated on long pedicels; that of H. carinata is one-chambered. There are also
other differences in the complement of nematothecae and the margin of the
hydrotheca of these three species.

H. rostrata, with its lobed thecal margin, shows tendencies towards the
genus Gattya.

Distribution. Endemic to South Africa.
Distribution in South Africa, off Natal, 70-100 m. 29/31 (s), 29/32 (s), 28/32 (d)

Halopteris tuba (Kirchenpauer, 1876)

Fig. 115

Plumularia tuba Kirchenpauer, 1876: 44, pl. 1 (fig. 2), pl. 4 (figs 2—2d).
Heteroplon jaederholmi Stechow, 1912: 366, figs F—G.

Plumularia (Heteroplon) africana: Stechow, 1925a: 500, figs 44-45.
Halopteris tuba: Millard, 1962: 286, fig. 5.

360 ANNALS OF THE SOUTH AFRICAN MUSEUM

Diagnosis. Stem reaching 220 mm in height, consisting of an athecate basal
part and a distal thecate and hydrocladia-bearing part, the two usually separated
by an oblique hinge-joint, a second hinge-joint sometimes present after the
first hydrotheca. Basal part with a variable number of transverse nodes and
nematothecae. Distal part normally unsegmented, but with faint transverse or
slightly oblique nodes sometimes visible near tip, bearing hydrothecae on
anterior face, the first two median, the rest displaced alternately to left and right
and forming two longitudinal rows. Two pairs of opposite hydrocladia arising
by short apophyses at the sides of the first two hydrothecae; remaining hydro-
cladia alternate, one to each hydrotheca. Five nematothecae corresponding to
each hydrotheca, one median inferior, one pair laterals, and one pair superior;
the median inferior not directly below the hydrotheca, but displaced to the
opposite side so that it lies above the previous hydrotheca; one or more extra
nematothecae between hinge-joints.

Hydrocladium bearing hydrothecae on anterior surface, consisting of one
short athecate internode bearing one median nematotheca and terminated by an
oblique node and then up to 13 thecate internodes terminated by oblique nodes.
Two internodal septa (one proximal and one distal) sometimes present in old
colonies. Each thecate internode with three nematothecae, one median inferior
and one pair laterals, and also one median superior naked sarcophore behind
posterior wall of hydrotheca. |

Hydrotheca cup-shaped, shallow, with depth usually less than diameter, with
straight walls, almost completely adnate, 0,09-0,20 mm in abcauline height and
0,14-0,3 mm in marginal diameter on hydrocladium; cauline hydrotheca
normally with thickened perisarc and eroded margin, thus shallower and with
no free part. Margin forming an angle of 50—70° with internode.

Median inferior nematotheca well below hydrotheca and not reaching its
base, two-chambered, immovable; basal chamber not distinctly demarcated
from internode; distal chamber scoop-shaped, with no adcauline wall. Lateral
nematotheca large, reaching well above thecal margin, two-chambered, movable;
distal chamber funnel-shaped and not emarginated; those on hydrocladium
seated on rounded pedicel, those of stem larger, not pedicellate. Superior nema-
tothecae of stem seated above adnate part of thecal wall, minute, hook-shaped,
one-chambered, immovable.

Gonothecae borne on hydrocladia below hydrothecae, male and female
on same stem, but male more distal than female. Female gonotheca flattened
anterior-posteriorly, oval in front view, containing one, or rarely two, eggs
between the limbs of a bifurcating blastostyle, eggs developing into planulae
in situ; with three large nematothecae on basal part; pedicel of one segment.
Male gonotheca elongate-oval, curved.

Variation. Apart from variations included in the diagnosis there may occasionally
be more than two pairs of opposite hydrocladia on the stem.
In some cases there may be an extra, short athecate internode at the base

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 361

0
A
AM F G

Pig. 115.

Halopteris tuba. A, stem; B, proximal end of hydrocladium; C, lower part of stem in anterior
view, with hinge-joints; D, male gonothecae; E, female gonotheca; F and G, cauline
hydrothecae, F from a lower level on the stem, showing paired superior nematothecae
(aperture for lateral nematotheca on left of hydrotheca).

Scale: A in cm, the rest in mm/10.

362 ANNALS OF THE SOUTH AFRICAN MUSEUM

of the hydrocladium, representing part of the apophysis which has been cut off.
Rarely deeper hydrothecae occur, when the depth equals the marginal
diameter.

Distribution. Endemic to South Africa. Type locality: Algoa Bay.

Distribution in South Africa. South and east coasts from False Bay to Natal,
in 11-550 m. Fairly common. 34/18 (s), 34/19 (s), 35/20 (d), 34/21 (s), 34/22
(s), 35/22 (d, vd), 34/23 (s, d), 34/24 (d), 33/25 (s), 34/25 (s, d), 33/26 (s), 33/27
(s), 33/28 (s), 32/28 (s), 30/31 (s), 29/31 (, d)

Genus Monostaechas Allman, 1877

Diagnosis. An erect stem present or absent. If present and fascicled, stem com-
posed of intercommunicating tubes of equal diameter and importance which
give rise irregularly to hydrocladia. If stem absent, hydrocladia arising directly
from hydrorhiza. Hydrocladia branching in the form of a sympodium, either
dichotomous or helicoid, in the latter case branching from the posterior surface.
Hydrotheca cup-shaped, with untoothed margin.

Type species: Monostaechas dichotoma Allman, 1877 (= Plumularia quadridens
McCrady, 1857).

KEY TO SPECIES

(For simple forms, see also under Antennella, p. 330)

1. Hydrotheca completely adnate, margin at right angles to hydrocladium M. faurei
Hydrotheca not completely adnate, margin directed obliquely outwards. a ae t
2. Subsidiary hydrocladium adnate to previous one for a short distance and then
forming a small angle with it (under 30°) . se M. natalensis
— Subsidiary hydrocladium not adnate to previous one and forming a iaee angle with
it (OVER30 = ae she ae a = *. Wy 7 M. guadridens

Monostaechas faurei Millard, 1958
Fig. 116A—D
Monostaechas faurei Millard, 1958: 204, fig. 11. Millard, 1968: 277, fig. 5E.

Diagnosis. Stem fascicled, reaching 142 mm, branching in a roughly dichotomous
manner, its component tubes diverging from one another to form hydrocladia
in an irregular fashion.

Hydrocladia branching sympodially from the posterior surface, the whole
Sympodium curved backwards in one plane. Hydrocladium consisting of a
short basal athecate part terminated by an oblique node and a long distal
thecate part divided into thecate internodes by oblique nodes. The basal part
of a subsidiary hydrocladium very characteristic: originating from previous
hydrocladium immediately below the first oblique node of the latter; its first
internode almost entirely adnate to posterior surface of the first thecate inter-
node of the previous hydrocladium and communicating with it by a pore near
the distal end, then free for a short distance and terminated by a transverse
node; second internode free, bearing a double series of nematothecae, termi-

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 363

nated by an oblique node. Each thecate internode bearing one hydrotheca and
nine nematothecae, one median inferior and four pairs laterals.

Hydrotheca deep-campanulate, completely adnate, 0,18-0,3 mm in height
and 0,11-0,15 mm in marginal diameter. Margin at right angles to internode.

Nematothecae all large, two-chambered and movable; distal chamber
funnel-shaped, with adcauline edge lower than abcauline. Median inferior
nematotheca not, or only just, reaching base of hydrotheca. Lateral nemato-
thecae: first pair borne on long finger-shaped pedicels at sides of hydrotheca
but not reaching thecal margin, second pair borne in axils of pedicels of first
pair, third pair arising at sides of hydrotheca and overtopping thecal margin,
fourth pair arising above level of hydrotheca and overreaching next oblique
node.

Gonothecae borne on hydrocladia below hydrothecae, male and female
on the same colony, the male more distal than the female, curved-pear-shaped,
pedicel of one segment. Female gonotheca with wide and operculate distal
aperture, bearing 2—5 large nematothecae near base, containing one or two
planulae. Male gonotheca smaller than female, with rounded distal end, bearing
two large nematothecae near base.

Variation. The first hydrotheca of a hydrocladium is distinctly shallower than
the rest. Occasionally the distal end of a hydrocladial internode may be cut off
by a transverse node to form an intermediate athecate internode, causing some
irregularity in the nematothecae.

Distribution. Endemic to South Africa. Type locality: off Natal, approximately
28°41°S/32°22’E, 62 m.

Distribution in South Africa. On the east coast, from East London to St. Lucia,
49-219 m. 33/28 (s), 30/31 (s), 29/31 (s, d), 28/32 (s, d)

Monostaechas natalensis Millard, 1958
Figs 116E-G, 117A-—C
Monostaechas natalensis Millard, 1958: 206, fig. 12. Millard, 1962: 291, fig. 2F.

Diagnosis. Colony reaching a maximum height of 76 mm, though more often
under 30 mm, consisting of either numbers of hydrocladia arising in tufts
from a short fascicled stem or separate hydrocladia arising independently from
the hydrorhiza. The component tubes of the stem diverging to form branches
and hydrocladia.

Hydrocladium unbranched or branching sympodially once or twice from
posterior surface; consisting of a short basal athecate part terminated by an
oblique node and a long distal thecate part divided into thecate internodes by
oblique nodes. Basal part containing one or two transverse nodes and bearing
a double series of nematothecae. A subsidiary hydrocladium arising from pre-
vious one at any level and forming an acute angle with it, adnate to it for a
short distance and with or without a second communicating pore. Each thecate

ANNALS OF THE SOUTH AFRICAN MUSEUM

364

Sei cal eI creat a

&
ah

Fig. 116.
Monostaechas faurei. A, branching hydrocladium; B, stem; C, hydrocladium with male
gonotheca; D, hydrocladium with female gonotheca.
Monostaechas natalensis. E, hydrocladium; F, branching hydrocladia; G, lateral nema

tothecae.
Scale: B in cm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 365

internode bearing one hydrotheca and six to ten nematothecae, one median
inferior, two pairs laterals and one to five superior.

Hydrotheca campanulate, generally adnate for over half height, with no
intrathecal septum, 0,16-0,6 mm in height and 0,15-0,4 mm in marginal
diameter. Margin forming an angle of about 65° with internode.

Nematothecae all two-chambered and movable. Median inferior nemato-
theca not reaching base of hydrotheca. Lateral nematothecae: first pair borne
on long finger-shaped pedicels at sides of hydrotheca but not reaching thecal
margin; second pair borne in axils of pedicels of first pair; in both distal chamber
funnel-shaped and deeply emarginated on two sides forming a bivalve structure
with a large abcauline and a very small adcauline valve. Superior nematothecae
variable in number and position, sometimes one or a pair arising behind free
part of thecal wall and overtopping margin, sometimes one to three median
arising above level of thecal margin.

Gonothecae borne on hydrocladia below hydrothecae, male and female
on same colony, the male more distal than the female, curved pear-shaped,
pedicel of one segment, bearing two nematothecae near base. Female gono-
theca with wide and operculate distal aperture. Male gonotheca smaller than
female, with rounded distal end.

Variation. This species is very variable in its growth-form, the larger colonies
possessing rugged stems which branch irregularly and give rise to spectacular
sprays of hydrocladia; the smaller colonies consisting of low tufts of hydro-
cladia arising from an agglomeration of stem-tubes, and many solitary
hydrocladia.

The tendency for the hydrocladia to branch sympodially is not as strong as
in M. faurei and the species appears to be intermediate between the genera
Monostaechas and Corhiza. Its ability to produce solitary hydrocladia indicates
affinity with Antennella.

Occasionally the distal end of a thecate internode may be cut off by a
transverse node to form an intermediate athecate internode, taking with it one
or two of the superior nematothecae.

Distribution. Endemic to South Africa. Type locality: off Natal, 30°32’S/
30°38,5’E, 46 m.

Distribution in South Africa. On the south and east coasts, from Port Elizabeth
to Inhambane, 18-150 m. 34/25 (s, d), 33/28 (s), 31/29 (s), 30/30 (s), 29/31 (s),
28/32 (s), 24/34 (s), 24/35 (s)

Monostaechas quadridens (McCrady, 1858)
Fig. 117D-F

Plumularia quadridens McCrady, 1858: 97.

Monostaechas dichotoma Allman, 1877: 37, pl. 22 (figs 1-5).

Monostaechas quadridens: Nutting, 1900: 75, pl. 13 (figs 1-4). Stechow, 19255: 252. Vervoort,
1968, 61, fig. 28.

Monostaechas fisheri var. simplex Billard, 1913: 16, fig. 7.

366 ANNALS OF THE SOUTH AFRICAN MUSEUM

Diagnosis. Colony reaching a maximum height of 15 mm, consisting of hydro-
cladia which arise separately from the hydrorhiza and branch sympodially.
Larger colonies branching first in the form of a dichotomous sympodium,
in which two subsidiary hydrocladia of equal diameter arise from opposite
sides of the primary one; later branching in the form of a helicoid sympodium,
in which each subsidiary hydrocladium arises from the posterior surface of the
previous one. Smaller colonies branching as a helicoid sympodium only.
Subsidiary hydrocladia always facing towards the previous one, thus all hydro-
cladia of a helicoid sympodium in one plane, but not those of a dichotomous
sympodium. False axis of helicoid sympodium straight or curved backwards,
formed by the bases of successive hydrocladia.

Each hydrocladium consisting of a basal unsegmented athecate part bearing
a variable number of nematothecae, and a distal thecate part, the two separated
by an oblique node; with a distinct forward bend of 140-160° just below the
oblique node, from which region the next hydrocladium arises. Distal part of
hydrocladium consisting of alternate thecate and athecate internodes termi-
nated by transverse and oblique nodes respectively, though the transverse
nodes may be very poorly defined in certain areas. Each thecate internode
bearing one hydrotheca and four nematothecae, one median inferior, one pair
laterals and one median superior. Each athecate internode bearing two median
nematothecae.

Hydrotheca cup-shaped, adnate for about half height, with no intrathecal
septum, 0,2—-0,3 mm in height and 0,2-0,3 mm in marginal diameter. Margin
forming an angle of 30-60° with internode.

Median inferior nematotheca not quite reaching base of hydrotheca,
possibly movable, two-chambered; distal chamber scoop-shaped, with low
adcauline wall. Lateral nematothecae borne on finger-shaped pedicels at sides
of hydrotheca and not quite reaching thecal margin, two-chambered, movable;
distal chamber funnel-shaped. Median superior nematotheca seated behind
free part of thecal wall, minute, one-chambered. Nematothecae of athecate
internodes similar to median inferior, movable.

Gonothecae borne on hydrocladia below hydrothecae, male and female
on same colony, curved pear-shaped, pedicel of two segments, bearing two
nematothecae near base. Female with wide operculate distal aperture, containing
a single egg. Male smaller than female and with smaller aperture.

Variation. Most of the South African stems have the helicoid sympodium only,
but a few show the dichotomous sympodium at the base. The ‘dichotomy’
is not as regular as in the type area (West Indies) as figured by Allman, and the
two subsidiary hydrocladia may arise side by side from the posterior surface
of the previous one, or one from the lateral surface and one from the posterior
surface.

Distribution outside South Africa. Circumglobal in tropical and temperate waters.
Type locality: Charleston, U.S.A.

367

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA

A,C,D,F
d

x A : 9 J
Y \ 4 i
g 2 i IM i of i
aes HQ i
rene GQ \\p W
Y \ 4 e \h J]
\ ~ ane, CO a.
Ra LA
\

Fig. 117.
Monostaechas natalensis. A, male gonotheca; B, stem; C, part of hydrocladium with female

gonotheca.
Monostaechas quadridens. D, male gonotheca; E, two stems, the one on the left branching

first dichotomously and then in a helicoid manner, the one on the right branching as a
helicoid sympodium only; F, hydrocladium with female gonotheca.
Scale: B in cm, the rest in mm/10.

368 ANNALS OF THE SOUTH AFRICAN MUSEUM

Distribution in South Africa. Natal to Mocgambique, littoral and 0-70 m. 31/30
(1), 30/30 (s), 29/31 (s), 29/32 (s), 28/32 (s), 26/32, 25/32, 21/35

Genus Schizotricha Allman, 1883

Diagnosis. An erect stem present, which may be branched or unbranched,
fascicled or unfascicled; if fascicled with one main axial tube bearing pinnately
arranged hydrocladia; with cauline hydrothecae. Hydrocladia alternate, at
least some of them branching sympodially from anterior or lateral surface
immediately below hydrothecae. Hydrotheca cup-shaped, with untoothed
margin.

Type species: Schizotricha unifurcata Allman, 1883.

KEY TO SPECIES

1. Hydrotheca not completely adnate, one to each thecate internode. Stem unfascicled
S. simplex

— Hydrotheca completely adnate, more than one to each internode. Stem fascicled
S. frutescens

Schizotricha frutescens (Ellis & Solander, 1786)

Sertularia frutescens Ellis & Solander, 1786: 55, pl. 6 (figs a, A).

Schizotricha frutescens: Jaderholm, 1909: 108, pl. 12 (fig. 9). Vervoort, 1946a: 171, fig. 71.
Diagnosis. Stem fascicled, branching irregularly, reaching 200 mm, bearing
alternate hydrocladia in the distal regions. Axial tube in its distal region divided
into internodes each bearing one to three hydrothecae and one hydrocladium
from the side of each hydrotheca, alternately on the left and the right.

Hydrocladium consisting of thecate internodes separated by transverse
or slightly oblique nodes; each internode bearing one to five hydrothecae.
Hydrocladium normally branched, giving rise to a secondary branch from one
side of the first hydrotheca; the secondary branch sometimes rebranching in a
similar manner; secondary and tertiary branches similar to primary in structure.
No internodal septa. Three nematothecae corresponding to each hydrotheca,
one median inferior and one pair laterals.

Hydrotheca deep cup-shaped, completely adnate. Margin tilted slightly
towards internode.

Nematothecae all two-chambered and movable, with funnel-shaped distal
chamber. Median inferior seated well below hydrotheca and not reaching its
base. Lateral nematotheca overreaching thecal margin.

Male and female gonothecae (not reported from South Africa) borne on
different colonies, arising from below hydrothecae on the hydrocladia, (?female)
pear-shaped, with wide operculate distal aperture, bearing two nematothecae
near base.

Distribution outside South Africa. North Atlantic, Mediterranean, Kerguelen
Island. Type locality: Scarborough, U.K.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 369

Distribution in South Africa. One record only, by Krauss (1837) from Algoa
Bay. Needs confirmation. 33/25

Schizotricha simplex Warren, 1914

Fig. 118A-—C
Schizotricha simplex Warren, 1914: 83, figs 1-4, pl. 6.
Diagnosis. Stem unfascicled, unbranched, reaching a maximum height of 14
mm, consisting of an athecate basal part, and a distal thecate and hydrocladia-
bearing part, the two separated by two oblique hinge-joints. Basal part with a
variable number of transverse nodes. Distal part divided into thecate internodes
by oblique nodes. First thecate internode bearing a pair of opposite hydrocladia
arising from the sides of the hydrotheca; remaining hydrocladia alternate, one
to each internode. Three nematothecae to each internode, one median inferior
and one pair laterals.

Hydrocladium bearing hydrothecae on anterior surface, consisting of one
very short athecate and anematothecate internode terminated by a transverse
node and not always sharply demarcated from apophysis, then alternate athe-
cate and thecate internodes terminated by distinctly and slightly oblique nodes
respectively, usually two or three (rarely four) thecate internodes in all. Hydro-
cladium giving rise to a subsidiary branch from one side of the first hydrotheca.
Subsidiary branch similar to primary one in structure and forming an angle of
about 30° with it, bearing one or two hydrothecae. No internodal septa. Each
thecate internode with three nematothecae, one median inferior and one pair
laterals. Each athecate internode other than the first with one median
nematotheca.

Hydrotheca cup-shaped, with walls flaring slightly to margin, adnate for a
little over half height, with no intrathecal septum, 0,12—0,16 mm in abcauline
height, and 0,16-0,2 mm in marginal diameter. Margin forming an angle of
30—40° with internode.

Median inferior nematotheca not reaching base of hydrotheca, two-
chambered, probably movable, distal chamber scoop-shaped with low adcauline
wall. Lateral nematotheca borne on a short pedicel, not, or only just, reaching
thecal margin, two-chambered, movable, emarginated on both adcauline and
abcauline walls but more deeply on adcauline. Nematotheca of athecate inter-
node similar to median inferior.

Male and female gonothecae borne on same colony, the female on the
stem and the male on the first thecate internodes of the primary hydrocladia,
arising immediately below hydrothecae. Female gonotheca large, flattened
antero-posteriorly, pear-shaped in broad view, with wide distal operculate
aperture, with two large nematothecae on basal part, containing a single ovum
which develops into a planula in situ; pedicel of one segment. Male gonotheca
cylindrical or somewhat flattened, with bluntly pointed distal end.

Variation. Branching hydrocladia are found only in the older proximal part of

370 ANNALS OF THE SOUTH AFRICAN MUSEUM

a colony, and the last hydrocladia of a stem are usually unbranched.

Distribution. Endemic to South Africa. Type locality: near mouth of St. John’s
River, littoral.

Distribution in South Africa. Sparsely distributed from Still Bay to the Cape/
Natal border, littoral only. 34/21 (1), 34/22 (1), 33/27 (1), 31/29 (1)

Subfamily Kirchenpaueriinae

Diagnosis. Stem erect, branched or unbranched, fascicled or unfascicled,
giving rise to alternate hydrocladia. Hydrocladia arising from a single axial
tube in fascicled stems. No cauline hydrothecae. Hydrothecae small (usually
under 0,2 mm in depth). Nematothecae reduced: laterals absent; medians poorly
developed, seldom two-chambered, often rudimentary and sometimes repre-
sented by naked sarcostyles only. Gonothecae unprotected, not aggregated,
not bearing nematothecae.

KEY TO GENERA

[Genera not represented in South Africa are bracketed]

1. Hydrothecal margin toothed Be ie aa Pe pea ic been
— Hydrothecal margin not toothed .. oe Sh ee : : ; Bae
2. Hydrotheca with abcauline intrathecal septum .. ae ae Pyenotheca jos 37 7/
— Hydrotheca without intrathecal septum .. a a, oe : 3
3. At least some of the hydrocladia forked .. - a ie \OspaIEEe p. .. 376
— No hydrocladia forked Be sit a: a oe .. Kirchenpaueria p. 370

Genus Kirchenpaueria Jickeli, 1883

Diagnosis. Stem branched or unbranched, bearing hydrocladia. Rarely with
simple forms where the hydrocladia arise directly from the hydrorhiza. Hydro-
cladia unbranched. Hydrotheca cup-shaped, without intrathecal septum, with
untoothed margin.

Type species: Sertularia pinnata Linnaeus, 1758.

KEY TO SPECIES

1. One median superior nematotheca present a ae oy eg ez
Median superior nematotheca replaced by a naked sarcostyle oe ss K. pinnata

2. Stem internode with at least one nematotheca on proximal region and one on
apophysis. eyes seated on proximal half of internode. Gonotheca triangular
in section aot K. triangulata
— Stem internode with one nematotheca in axil of hydrocladium, none on apophysis.
Hydrotheca seated on distal half of internode. Gonotheca round in section K. irregularis

Kirchenpaueria irregularis (Millard, 1958)
Fig. 118D-G
Plumularia irregularis. Millard, 1958: 211, fig. 13A—C.

Diagnosis. Hydrorhiza creeping. Stem fascicled at base, unbranched or
sparsely branched, reaching a height of 13 mm, bearing alternate hydrocladia,

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 371

Fig. 118.

Schizotricha s.. _-x. A, anterior view of stem with female gonophores; B, male gonotheca;
C, hydrocladium with branch. =

Kirchenpaueria irregularis. D and F, parts of hydrocladia; E, stem and origins of hydrocladia;
G, stem.

Scale: G in cm, the rest in mm/10.

372 ANNALS OF THE SOUTH AFRICAN MUSEUM

divided into regular internodes by transverse nodes. Each internode bearing
one hydrocladial apophysis near distal end, one mamelon on upper surface of
apophysis and one nematotheca immediately above apophysis. No internodal
septa. The two rows of hydrocladia in one plane.

Hydrocladium bearing hydrothecae on upper surface, very irregularly
segmented, normally consisting of only thecate internodes terminated by
transverse nodes, but often with intermediate athecate internodes. Each thecate
internode with two nematothecae, one median inferior not reaching base of
hydrotheca and one median superior. No internodal septa. Hydrotheca seated
on distal half of internode.

Hydrotheca cup-shaped, not completely adnate, widening to margin,
0,07-0,11 mm in abcauline depth and 0,10-0,12 mm in marginal diameter.
Margin oblique. |

Nematotheca two-chambered, with very small basal chamber, flask-shaped,
with convex abcauline wall.

Gonothecae unknown.

Variation. The hydrocladial internodes vary greatly in length though generally
very long and slender. Athecate internodes may occur in almost any position
on the hydrocladia, as many as three at the base and up to two between conse-
cutive thecate internodes. Usually these are bounded by straight nodes and
carry no nematothecae. Occasionally, however, the distal part of a thecate
internode is cut off behind the hydrotheca by an oblique node, carrying with it
the median superior nematotheca.

The hydrothecae are adnate for about +-%. Those with an oblique node
behind them have a long free portion.

Distribution. Endemic to Southern Africa.

Distribution in South Africa. Natal and Mocambique, rare; type locality:
Salisbury Island, Durban Bay. 29/31 (1), 21/35

Kirchenpaueria pinnata (Linnaeus, 1758)

Fig. 119A-D

Sertularia pinnata Linnaeus, 1758: 813.

Plumularia pinnata: Hincks, 1868: 295, pl. 65 (fig. 1). Ritchie, 19075: 541.
?Plumularia Gaymardi: Kirchenpauer, 1876: 27, pl. 1 (fig. 6), pl. 3 (fig. 6).
Plumularia echinulata: Ritchie, 1907b: 540. Ritchie, 1909: 87.

Plumularia unilateralis Ritchie, 1907b: 541, pl. 2 (fig. 1).

Kirchenpaueria pinnata: Vervoort, 19466: 321. Millard, 1957: 233.

Diagnosis. Hydrorhiza creeping. Stem unfascicled, unbranched, usually reaching
a height of 10-30 mm (maximum 75 mm), bearing alternate hydrocladia, divided
into internodes by transverse or slightly oblique nodes. Each internode bearing
a variable number of hydrocladia on short apophyses and two naked sarco-
styles in the axil of each, one on upper surface of apophysis and one on stem

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 373

just above apophysis. No internodal septa. No mamelon. The two rows of
hydrocladia in one plane or displaced towards the anterior surface.

Hydrocladium bearing hydrothecae on upper surface, consisting of one
very short athecate and anematothecate internode, then all thecate internodes
terminated by oblique nodes. Each thecate internode with one median inferior
nematotheca and one median superior ‘naked sarcostyle. Internodal septa
absent, or two in each thecate internode, one proximal and one distal, and one
in the athecate internode. Hydrotheca seated in centre of internode.

Hydrotheca cup-shaped, almost completely adnate (3-4), with straight
abcauline wall, 0,07—0,12 mm in abcauline depth and 0,12—0,17 mm in marginal
diameter. Margin oblique, reaching approximately to next node.

Median inferior nematotheca minute, scoop-shaped, one-chambered, with
no adcauline wall. All others reduced to naked sarcostyles emerging through
foramina in the perisarc.

Gonothecae borne on stem (but not on the hydrocladial apophyses) or
hydrorhiza, without nematothecae, elongate-oval, with longitudinal ridges
which often bear spines.

Variation. This is a very variable species, in which features such as the number
of hydrocladia to a stem internode, presence or absence of athecate internodes
in the hydrocladia, shape of hydrotheca and presence or absence of spines on
the gonotheca have been used in the past for the separation of species, varieties
or forms. South African material conforms most nearly to the typical form as
described by Hincks.

The length of the stem internodes varies, and each may bear one to four
hydrocladia, depending on the length. The most common number is two, with
a tendency for more near the base and only one near the tip. In some stems all
internodes bear one hydrocladium each.

The hydrocladia lack regular athecate internodes (other than the first).
Occasional ones do, however, occur sporadically, with 0, 1, or 2 median
nematothecae each.

Ritchie (19075) has reported a colony from Saldanha Bay (as Plumularia
unilateralis) with branching hydrocladia, but no further examples have been
seen. Rare examples of solitary hydrocladia arising separately from the
hydrorhiza occur.

Gonothecae vary in the development of the spinous processes. In general,
young ones are practically smooth, older ones ribbed longitudinally, and fully
mature ones provided with spines. Female gonothecae appear to be more
spinous than male.

Distribution. Cosmopolitan. Type locality: U.K.

Distribution in South Africa. From South West Africa on the west to Natal on
the east; the most common littoral hydroid in the south-western Cape; also
common on ships’ hulls and in shallow water, extending down to 64 m. 22/14,

374 ANNALS OF THE SOUTH AFRICAN MUSEUM

——————

Pics iS:

Kirchenpaueria pinnata. A, hydrocladium; B, part of stem with origins of hydrocladia;
C, fertile stems; D, gonothecae, arising from hydrorhiza.

Kirchenpaueria triangulata. E, colony with pinnate stem bearing gonothecae and several simple
stems; F, nematotheca; G, part of stem showing nematothecae and origins of hydro-
cladia; H, hydrocladium.

Scale: C in cm, E in mm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 375

29/16 (1), 33/17 (s), 33/18 (h, 1, s), 34/18 (1, s), 34/21 (1), 34/22 (1), 34/23 (h, 1. s),
33/25 (1, s), 34/25 (s), 33/27 (1), 32/28 (1), 31/29 (1), 31/30 (1), 29/31 (s)

Kirchenpaueria triangulata (Totton, 1930)
Fig. 119E-H
Plumularia triangulata Totton, 1930: 225, fig. 61. Ralph, 1961: 41, fig. 5f-g.
Kirchenpaueria triangulata: Millard, 1962: 292, fig. 6E-J. Vervoort, 19665: 136, figs 38-39.

Millard, 1967: 184.

Diagnosis. Hydrorhiza creeping, giving rise to both pinnate stems and, as a
secondary growth-form, separate hydrocladia. Pinnate stem unfascicled,
unbranched, reaching 10-35 mm in height, bearing alternate hydrocladia,
divided into regular internodes by straight nodes which may be indistinct in
parts. Each internode bearing one hydrocladial apophysis at distal end, one
mamelon on upper surface of apophysis and two to four nematothecae, includ-
ing one on proximal end immediately above last apophysis and one on upper
surface of apophysis distal to mamelon. No internodal septa. The two rows of
hydrocladia in one plane or displaced slightly to the anterior surface.

Hydrocladium bearing hydrothecae on upper surface, consisting of thecate
internodes only, terminated by straight or slightly oblique nodes. Each internode
with two nematothecae, one median inferior and one median superior. No
internodal septa. Hydrotheca seated in proximal half of internode.

Separate hydrocladium borne on long apophysis of hydrohiza, about
4 mm in height, exactly similar to those borne on the stem except that the
measurements of individual parts are slightly less.

Hydrotheca cup-shaped, completely adnate or with a very short free part,
widening slightly to margin, 0,07—0,10 mm in abcauline depth and 0,10—0,12 mm
in marginal diameter. Margin slightly oblique and very slightly everted.

Nematotheca one-chambered, movable, flask-shaped, with convex
abcauline wall and practically straight adcauline wall.

Gonothecae borne on hydrocladial apophyses of stem, large (reaching
3 mm in length), without nematothecae, increasing in diameter to truncated
distal end, triangular in section, with short pedicel of two segments.

Variation. In South Africa this species grows epizootically on other hydroids.

In pinnate stems there is a tendency for the nodes to be indistinct or com-
pletely absent. This is most common in the proximal part and sometimes only
the last few nodes are visible. Occasionally the node between the hydrocladial
apophysis and the first thecate internode is also indistinct.

Athecate internodes of variable length (possibly due to regeneration)
commonly occur in the hydrocladia. They may be present in any position, but
are most common at the proximal ends.

Although the nematothecae are one-chambered a very thin septum is
sometimes visible near the base. The number of cauline nematothecae is variable,
although the two mentioned in the diagnosis always occur.

376 ANNALS OF THE SOUTH AFRICAN MUSEUM

Distribution outside South Africa. New Zealand. Type locality: off Three
King’s Island in 550 m.

Distribution in South Africa. A deep-water species occurring at scattered
localities from off the Cape Peninsula to Mocgambique in 111-1 207 m. 34/17 (d),
34/23 (d), 29/31 (d), 28/32 (a), 25/35 (vd)

Genus Oswaldella Stechow, 1919

Diagnosis. Stem unfascicled, unbranched or sparingly branched, bearing hydro-
cladia. Rarely with a simple form where the hydrocladia arise direct from the
hydrorhiza. At least some of the hydrocladia forking once or several times in a
plane at right angles to the hydrocladium. Hydrotheca cup- or jug-shaped,
without intrathecal septum, with untoothed margin.

Type species: Schizotricha bifurca Hartlaub, 1904.
One species in South Africa.

Oswaldella nova (Jarvis, 1922)
Fig. 120A—C

Plumularia nova Jarvis, 1922: 347, pl. 26 (fig. 20).
Kirchenpaueria adhaerens Millard, 1958: 203, fig. 13 F—G.
Oswaldella nova: Millard, 1962: 295, fig. 6A—D. Millard, 1973: 28, fig. 5.
Diagnosis. Hydrorhiza epizootic on other hydroids (Plumulariidae, Halopteri-
nae), giving rise, so far as is known, to simple stems (hydrocladia) only.

Hydrocladia borne on long apophyses of hydrorhiza, reaching a maximum
height of 7 mm, often forked dichotomously once or twice. The two limbs of a
fork of equal length and thickness and bearing hydrothecae on the same surface
as the undivided part. Hydrocladium consisting of thecate internodes only,
terminated by oblique nodes. Each internode with one median inferior nemato-
theca and one median superior naked sarcostyle situated behind adcauline
wall of hydrotheca. One median nematotheca on apophysis of hydrorhiza. No
internodal septa. Hydrotheca seated approximately in centre of internode.

Hydrotheca cup-shaped, either completely adnate or with a very short
free part, with straight or slightly concave abcauline wall, 0,05-0,12 mm in
abcauline depth and 0,07-0,14 mm in marginal diameter. Hydranth with about
16 tentacles.

Median inferior nematotheca minute, one-chambered, saucer-shaped,
often missing.

Male gonothecae borne singly immediately below hydrothecae, elongated,
with truncated distal end and curved base, reaching 0,90 mm in length and
0,27 mm in maximum diameter. Female gonothecae unknown.

Variation. The hydrocladia may be undivided and very short, bearing only two
or three hydrothecae. At the other extreme are long hydrocladia forked twice,
reaching 7 mm and bearing up to 15 hydrothecae. The hydrorhizal apophysis

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA S77

may be separated off by a node, and the distal end of an internode may be
separated off by a straight node to form an athecate intermediate internode.
Internodes of very variable length.

Remarks. It is possible that this is a stunted epizootic form of a species with a
pinnate stem such as O. bifurca (Hartlaub, 1904) or O. antarctica (Jaderholm,
1904). Both the latter are antarctic forms.

Distribution outside South Africa. Tropical East Africa. Type locality: Zanzibar.

Distribution in South Africa. From the west coast of the Cape Peninsula to
Mocambique in 10-110 m. 34/18 (s), 35/21 (d), 34/22 (s), 34/23 (s), 33/26 (s),
33/27 (s), 30/30 (s), 28/32 (s), 21/35

Genus Pycnotheca Stechow, 1919
Syn. Diplocheilus Allman, 1883.

Diagnosis. Stem unbranched or sparsely branched, bearing hydrocladia.
Hydrocladia unbranched. Hydrotheca cup-shaped, with strong abcauline
intrathecal septum and untoothed margin.

Type species: Diplocheilus mirabilis Allman, 1883.
One species only in South Africa.

Pycnotheca mirabilis (Allman, 1883)
Fig. 120D-G
Diplocheilus mirabilis Allman, 1883: 49, pl. 8 (figs 4-7). Stechow, 1913: 88, figs 55—56.
Kirchenpaueria mirabilis: Warren, 1908: 321, fig. 15. Stechow, 19255: 241.
Pycnotheca mirabilis: Totton, 1930: 216, fig. 55a—d. Millard, 1957: 234. Ralph, 19615: 50,
fig. 7a—b. .
Diagnosis. Hydrorhiza creeping. Stem unfascicled, unbranched, reaching 30 mm
in height, bearing alternate hydrocladia, divided into internodes by very oblique
nodes which are successively more distinct towards the base where they resemble
hinge-joints. Each internode bearing one or two hydrocladial apophyses, the
two rows of hydrocladia not in one plane but displaced onto anterior surface.
No internodal septa. Mamelon present on upper surface of apophysis. One
nemathotheca on each hydrocladial apophysis and one on the anterior surface
of the distal end of each stem internode.

Hydrocladium bearing hydrothecae on anterior surface, consisting of
thecate internodes only, terminated by oblique nodes. Each internode with one
median inferior nematotheca close below base of hydrotheca and one median
superior naked sarcostyle behind adcauline wall of hydrotheca. Internodes
short and hydrothecae close-set, with margin of one almost reaching the base
of the next. No internodal septa. Hydrotheca seated in centre of internode.

Hydrotheca cup-shaped, widening slightly to a circular aperture, adnate
for about two-thirds height, with strong abcauline intrathecal septum reaching
about half-way across cavity and triangular in side view, 0,2-0,3 mm in depth

378 ANNALS OF THE SOUTH AFRICAN MUSEUM

E F

Fig. 120.

Oswaldella nova. A, epizootic colony on Halopteris glutinosa (hydrocladia of host cut off
short); B, hydrocladium; C, hydrocladium with male gonothecae.
Pycnotheca mirabilis. D, fertile colony; E, anterior view of stem showing origins of
hydrocladia; F, hydrocladium; G, gonotheca.
Scale: D in cm, A in mm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 379

and 0,18-0,3 mm in marginal diameter. Margin oblique. Hydranth with about
18 tentacles.

Median inferior and cauline nematothecae scoop-shaped, one-chambered,
immovable, with no adcauline wall. Median superior naked sarcostyle seated
in a funnel-shaped depression of the perisarc.

Gonothecae borne on hydrorhiza or on basal part of stem replacing
hydrocladia, without nematothecae, elongate-oval, transversely annulated,
with truncated distal end, containing one or two gonophores.

Variation. Minor differences in structure have led to the establishment of
separate varieties, geographical races or subspecies (Stechow 19254; Totton
1930). The features used include the thickness of the stem and hydrocladia,
the number of hydrocladia to a stem internode (one or two), the size of the
hydrotheca, the distance between consecutive hydrothecae, the thickness of the
intrathecal septum, the proportion of the free part of the adcauline thecal wall
and the plane of the basal opening of the median inferior nematotheca. In
general there seems little justification for subdivision of the species. In South
African material the longer stem internodes near the base tend to bear two hydro-
cladia, the shorter ones near the tip one. The measurements of the False Bay
material are on the whole greater than those of the east coast material.

Distribution outside South Africa. South-east Madagascar, Australia, New
Zealand, Japan, India, Pacific coast of North America, Vema Seamount (South
Atlantic). Type locality: Bass Strait in 69-73 m.

Distribution in South Africa. False Bay and the coasts of Natal and Mocambique,
littoral to 49 m. 34/18 (s), 30/30 (1, s), 29/31 (s), 28/32 (s), 26/32 (1, s)

Subfamily Plumulariinae

Diagnosis. Stem erect, branched or unoranched, fascicled or unfascicled, giving
rise to hydrocladia alternately or in alternating verticils. Hydrocladia arising
from a single axial tube in fascicled stems. No cauline hydrothecae. Hydro-
thecae small (usually under 0,2 mm in depth). Nematothecae generally two-
chambered and movable, not fused to hydrotheca, at least three associated with
every hydrotheca (one median inferior and one pair laterals). Gonothecae
unprotected, not aggregated, generally without nematothecae.

KEY TO GENERA

1. Mature stem and branches bearing verticils of hydrocladia, those of one verticil
normally alternating with those above and below forming double the number of

longitudinal rows oi = oe de a ws . Nemertesia p. 381
— Stem and branches bearing alternate hydrocladia which form two longitudinal rows .. 2
2. Hydrotheca with untoothed margin ee aye Ee : Plumularia p. 388

— Hydrotheca with toothed margin .. at ef aS Aa Dentitheca p. 380

380 ANNALS OF THE SOUTH AFRICAN MUSEUM

Genus Dentitheca Stechow, 1919

Diagnosis. Stem pinnate, giving rise to alternate hydrocladia. Hydrotheca
cylindrical to cup-shaped, margin with a large lobe on each side.

Type species: Plumularia hertwigi Stechow, 1909

One species only from South Africa.

Dentitheca bidentata (Jaderholm, 1920)
Fig. 121A—C

Plumularia bidentata Jaderholm, 1920: 7, pl. 2 (figs 5-6).

Plumularia crosslandi Jarvis, 1922: 346, pl. 25 (fig. 18).

Dentitheca crosslandi: Vannucci, 1949: 250, pl. 3 (figs 49-50).

Dentitheca bidentata: Millard & Bouillon, 1973: 78, fig. 11C.

Diagnosis. Stem unfascicled, unbranched, reaching a maximum height of 32
mm, bearing alternate hydrocladia, divided into internodes by oblique nodes,
those near the base forming hinge-joints. Each internode bearing a variable
number of hydrocladia. Three nematothecae to each apophysis (one on apophy-
sis, one in axil, one on stem next to origin), one on anterior surface of base of
internode and sometimes one on distal end of internode. Mamelon present on
upper surface of apophysis. The two rows of hydrocladia not in the same plane
but displaced towards the anterior surface.

Hydrocladium bearing hydrothecae on anterior surface, consisting of
thecate internodes separated by oblique nodes and bearing the hydrotheca on
the basal half. Each internode with one long median inferior nematotheca
reaching about half-way up length of hydrotheca, one pair shorter laterals not
reaching level of lateral thecal teeth and one median superior. Up to six peri-
sarcal thickenings on anterior surface which may be developed as internodal
septa.

Hydrotheca completely adnate, with the perisarc usually strongly thickened
and projecting into the interior near the distal end of the abcauline side and
sometimes the adcauline side as well. Margin with two large, triangular lateral
lobes and an abcauline lobe which is bent out at an angle to the axis. Hydro-
theca 0,10-0,13 mm in abcauline height and 0,07-0,14 mm in marginal diameter.

Nematothecae all two-chambered and movable, the median inferior with
an extra long basal chamber.

Gonothecae (not reported from South Africa) arising from axils of hydro-
cladia, cylindrical, with two longitudinal ridges on anterior surface and four
irregular distal expansions (Jarvis).

Variation. The structure of the lower part of the stem is variable and as many
as five of the basal nodes may be in the form of hinge-joints. One stem was seen
with four branches. The number of hydrocladia to an internode varies from
one to four.

The perisarc of the hydrotheca varies in thickness. In young hydrothecae

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 38]

the abcauline wall is only slightly thickened. In older ones this thickening pro-
jects into the cavity as a large triangular tooth and there is a second smaller
projection into the cavity from the adcauline wall.

Distribution outside South Africa. Brazil (type locality: south of Pernambuco,
9°S, 33 m); tropical western Indian Ocean: Wasin, Madagascar, Seychelles.

Distribution in South Africa. Durban to Inhaca, littoral to 48 m. 28/32 (s),
26/32 (1)

Genus Nemertesia Lamouroux, 1812

Syn. Antennularia Lamarck, 1816.

Diagnosis. Hydrocladia arranged in verticils in mature colonies, the number
to a verticil typically increasing with age, and members of one verticil typically
alternating with those above and below forming double the number of
longitudinal rows. Hydrotheca cup-shaped, with untoothed margin.

Type species: Sertularia antennina Linnaeus, 1758.

KEY TO SPECIES

1. All hydrocladial internodes normally thecate sti he ae .. NN. ramosa
— Hydrocladial internodes alternately thecate and athecate oe ev? an Pe
2. Stem unbranched and unfascicled .. if Se re ot oe N. antennina
— Stem branched and fascicled a af A os us w Gus ee Lo
3. Branching in one plane, stiff. Each stem internode bearing more than one whorl of
hydrocladia. First hydrocladial internode thecate : .. N. ciliata
— Branching irregular, flexuous. Each stem internode bearing only one whorl of hydro-
cladia. First hydrocladial internode athecate or ue Fe ae N. cymodocea

Nemertesia antennina (Linnaeus, 1758)
Fig. 121D-E

Sertularia antennina Linnaeus, 1758: 811.

Antennularia irregularis Quelch, 1885: 8, pl. 2 (fig. 4).

Antennularia antennina: Billard, 1904a: 211, figs 80-86. Hincks, 1868: 280, pl. 61.
Nemertesia antennina: Stechow, 1912: 365. Vervoort, 1946a: 179, figs 74a, 75, 76a.
Nemertesia antennina irregularis: Vervoort, 19666: 140, fig. 42.

Diagnosis. Stems thread-like, unfascicled, unbranched or rarely with one or
two branches, reaching 55 mm. Hydrocladia borne in whorls of 2-10. Stem
divided by transverse nodes (which may be obscure) into internodes each
bearing one whorl of hydrocladia. Mamelon present on upper surface of hydro-
cladial apophysis. A variable number of nematothecae corresponding to each
apophysis but always one pair in axil.

Hydrocladium consisting of alternate short athecate and long thecate
internodes. Athecate internodes with one or two median nematothecae. Thecate
internodes with three nematothecae, one median inferior and one pair laterals
overreaching thecal margin.

382 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 121.
Dentitheca bidentata. A, hydrocladium; B, part of stem in lower region showing origin of
hydrocladium; C, stems.
Nemertesia antennina, redrawn from Vervoort (1966). D, gonotheca; E, hydrocladium.
Nemertesia ciliata. F, hydrocladium from old region of stem; G, more typical hydrocladium;
H, stem; J and K, parts of stem with two and three hydrocladia per whorl respectively,
J with gonothecae (nematothecae omitted).
Scale: C and H in cm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 383

Hydrotheca cup-shaped, completely adnate, widening to margin, 0,07 mm
in abcauline depth and 0,08-0,09 mm in marginal diameter.

Nematothecae all two-chambered and movable.

Gonothecae borne on hydrocladial apophyses, without nematothecae,
smooth, pear-shaped, with wide, oblique aperture tilted towards stem. Male
and female similar, on same colony. Female containing one egg, rarely two,
which develops into a planula in situ.

Variation and remarks. The general appearance of this species with its
unbranched, thread-like stems is very characteristic. It is recognized as being
extremely variable in structure and several varieties and/or subspecies have been
described. Variations involve:

(i) The number of hydrocladia to a whorl, which probably increases with age.
(ii) The presence or absence of nodes on the stem.
(iii) The segmentation of the hydrocladia, where extra intermediate athecate
internodes may occur.
(iv) The number of nematothecae to an athecate internode. One appears to be
normal, but two may occur or, on extra intermediate internodes, none at all.

Stechow (1912) reports the species from South Africa without locality
or depth. Since his material was dry, without hydrocladia and without
gonothecae, this record is subject to doubt.

Vervoort (19665) reports subspecies irregularis from off Durban, and the
measurements given above are from this work. Vervoort reports that the whorls
of hydrocladia do not alternate as is usual for the species.

Because of the variability within the species, and because it is so poorly
known in South Africa, I prefer not to be categorical about subdivision into
subspecies and/or varieties. There is also a possibility of confusion with young
colonies of NV. cymodocea.

Distribution outside South Africa. Atlantic Ocean from Greenland to tropical
West Africa and from North America to Europe. Mediterranean. Pacific.
Type locality: U.K.

Distribution in South Africa. Off Durban in 425-430 m. 29/31 (d)

Nemertesia ciliata Bale, 1914
Fig. 121 F—K

Nemertesia ciliata Bale 19145: 170, pl. 36 (fig. 1). Briggs, 1915: 307, pl. 10 (fig. 3). Bale, 1915:
298. Jaderholm, 1919: 23. Millard, 1962: 297, fig. 7E-G.

Nemertesia ciliata var. cruciata Bale, 1915: 300.

Diagnosis. Hydrorhiza matted and thick. Stem thick and fascicled, reaching
245 mm, branching and rebranching in an irregularly alternate fashion and
always in one plane. Branches forming an acute angle with stem, larger ones
fascicled, smaller ones unfascicled. Hydrocladia borne in whorls of 2-4 on long
apophyses of stem and branches, the whole often compressed in one plane.
Axial tube of stem and branches, where exposed, with irregular transverse

384 ANNALS OF THE SOUTH AFRICAN MUSEUM

nodes, usually after every two or three whorls of hydrocladia. Mamelon pre-
sent on upper surface of hydrocladial apophysis. Three or four nematothecae
corresponding to each apophysis, two in the axil and one or two medians on
upper surface distal to the mamelon, none on main axial tube. Scattered
nematothecae on peripheral tubes.

Hydrocladium bearing hydrothecae on upper surface, consisting of alternate
long thecate and short athecate internodes separated by oblique nodes. All
internodes with at least two internodal septa, one proximal and one distal.
Athecate internodes with one median nematotheca on proximal end. Thecate
internodes with three nematothecae, one median inferior on proximal end and
well below base of hydrotheca and one pair laterals overreaching thecal margin.
Hydrotheca seated approximately in centre of internode.

Hydrotheca cup-shaped, completely adnate, widening to margin, 0,02—
0,07 mm in abcauline depth and 0,06-0,09 mm in marginal diameter. Margin
perpendicular to hydrocladium.

Nematothecae all two-chambered and movable. Distal chamber funnel-
shaped, deeply emarginated on adcauline side in medians, slightly so in laterals.

Gonothecae borne on hydrocladial apophyses, without nematothecae,
smooth, often curved, widening from base to truncated distal end, with broad
terminal aperture.

Variation. As is usual in this genus there is variation in the number of hydro-
cladia to a whorl. At the base of a stem or branch the arrangement is either
alternate or quite irregular. Further up there is a rough grouping into whorls,
though the members of a whorl are not all at the same level, until finally the
regular whorls are established.

Distribution outside South Africa. Tasmania, Japan. Type locality: Oyster Bay,
Tasmania.

Distribution in South Africa. From the west coast to off Port Elizabeth in 11—
392 m. 31/16 (d), 34/17 (d), 34/18 (d), 35/21 (d), 26/21 (d), 34/22 (s), 34/23 (d),
34/25 (s)

Nemertesia cymodocea (Busk, 1851)

Fig. 122A-C

Antennularia Cymodocea Busk, 1851: 119.

Nee (Antennularia) decussata Kirchenpauer, 1876: 52, 54, pl. 2 (fig. 24), pl. 3 (fig. 24),
pl. 7 (fig. 24).

?Nemertesia (Antennularia) Johnstoni Kirchenpauer, 1876: 52, 54, pl. 8 (fig. 26).

Antennularia decussata: Marktanner-Turneretscher, 1890: 258, pl. 6 (fig. 7).

Antennularia hartlaubi Ritchie, 1907b: 542, pl. 3 (fig. 4).

Nemertesia cymodocea: Billard, 1910: 39. Millard, 1957: 234. Millard, 1961: 207. Ralph,

1961b: 49, fig. 6k. Millard, 1962: 299.
Diagnosis. Hydrorhiza matted and spreading. Stem thick and fascicled, reaching
100 mm or more (maximum 492 mm), dividing irregularly and usually close to
the base into long flexuous branches, which may be fascicled in basal region.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 385

Hydrocladia in whorls of two or three. Branches divided into regular internodes
by transverse nodes, each internode bearing two or three hydrocladial apophyses
near distal end. Mamelon present on upper surface of apophysis. Nemato-
thecae present on peripheral tubes of fascicled stem. Three nematothecae cor-
responding to each apophysis, two seated side by side on its upper surface and
one on the next internode immediately above it.

Hydrocladium bearing hydrothecae on upper surface, consisting of alternate
short athecate and long thecate internodes separated by slightly oblique nodes.
All internodes with at least two internodal septa, one proximal and one distal.
Athecate internodes with one median nematotheca. Thecate internodes with
three nematothecae, one median inferior reaching approximately to base of
hydrotheca and one pair laterals overreaching thecal margin. Hydrotheca
seated approximately in centre of internode.

Hydrotheca cup-shaped, completely adnate, widening to margin, 0,06-0,11
mm in abcauline depth and 0,08-0,14 mm in marginal diameter. Margin perpen-
dicular or slightly oblique to hydrocladium.

Nematothecae all two-chambered and movable; distal chamber funnel-
shaped and with adcauline wall lower than abcauline.

Gonothecae borne on hydrocladial apophyses, without nematothecae,
smooth, compressed, flask-shaped and often slightly curved in side view, with
terminal aperture on a short tubular neck, held parallel to branch.

Variation. The most obvious variation is in the number of hydrocladia to a
whorl, two (decussate arrangement) and three (hexastichous arrangement)
being the most common, but there may also be only one (alternate arrange-
ment) and Kirchenpauer (1876) reports four. It appears that generally, though
possibly not always, this is a factor of age, for very young colonies have alternate
hydrocladia and develop the decussate arrangement only at the tips of the
branches; mature colonies have normally lost the hydrocladia in the older
fascicled part of the stem and have the decussate arrangement in the proximal
regions of the branches and the hexastichous arrangement more distally. Some
colonies are entirely decussate and some entirely hexastichous.

Occasionally a secondary hydrocladium arises from the apophysis of the
primary. This is not a regular occurrence and appears to be an abnormal
condition in which the secondary hydrocladium replaces a gonophore.

The number and strength of the internodal septa in the thecate internodes
is also variable, and in addition to the basic two (proximal and distal) there
may be one opposite the base of the hydrotheca, another immediately above
this and another below it.

Other minor variations include the presence of extra athecate regeneration
internodes, of which there may be as many as six at the base of the
hydrocladium, and the presence of an extra nematotheca on the hydrocladial
apophysis.

Distribution outside South Africa. New Zealand, south-western Atlantic.

386 ANNALS OF THE SOUTH AFRICAN MUSEUM

Distribution in South Africa. From Saldanha Bay to East London in 5-170 m.
Type locality: ‘South Africa’. 33/17 (s), 33/18 (s), 34/18 (s), 34/19 (s), 34/20 (s),
35/21 (d), 34/22 (s),--35/22 ), 34/23 (s, d), 33/25 (s), 34/25 (sd); 33 26K
33/27 (s), 32/28 (s)

Nemertesia ramosa Lamouroux, 1816
Fig. 122D-H
Nemertesia ramosa Lamouroux, 1816: 164. Millard, 1957: 235. Millard, 1962: 299, fig. 7A—D.
Vervoort, 19665: 139, fig. 41. Redier, 1967: 395. Vervoort, 1972: 234, fig. 83.

Antennularia ramosa: Hincks, 1868: 282, pl. 62.

Diagnosis. Hydrorhiza thick and matted. Stem thick and fascicled, generally
reaching 40-160 mm (maximum 282 mm), unbranched or branching irregularly,
bearing hydrocladia in whorls of two to five. Nodes either absent altogether or
transverse and quite irregular. Hydrocladial apophyses stout, bearing a mamelon
on upper surface. Four to seven nematothecae corresponding to each apophysis,
one or two on stem above apophysis, one pair on the apophysis in the axil and
one to three distal to mamelon.

Hydrocladia bearing hydrothecae on upper surface, normally consisting of
only thecate internodes separated by slightly oblique nodes. Internodal septa
present or absent. Each internode with three or four nematothecae, one median
inferior not reaching base of hydrotheca, one pair laterals overreaching thecal
margin and generally one median superior. Hydrotheca seated in proximal half
of internode.

Hydrotheca cup-shaped, completely adnate, widening to margin, 0,06-0,14
mm in abcauline depth and 0,07-0,14 mm in marginal diameter. Margin
perpendicular or slightly oblique to hydrocladium.

Nematothecae all two-chambered and movable; distal chamber
funnel-shaped with adcauline wall slightly lower than abcauline.

Gonothecae borne on hydrocladial apophyses, without nematothecae,
smooth. Male elongate-oval, symmetrical and with rounded distal end when
young, slightly curved and with oblique aperture when mature. Female curved,
widening to distal end, with broad oblique aperture usually facing towards
stem. Eggs developing into planulae in situ.

Variation. This is an extremely variable species, both in the arrangement of
hydrocladia and in the segmentation within them.

In young stems the hydrocladia are alternate, but as development proceeds
whorls of two, three, four, five, or even six are produced, with the result that
whorls with a larger number of hydrocladia occur at the distal end of the stem.
In time the lower (alternate) hydrocladia fall off or are obscured by the
fasciculation. Sometimes the arrangement is quite irregular in parts.

Though the normal condition seems to be hydrocladia with only thecate
internodes, athecate internodes may occur either below the first thecate one or
between any two thecate ones. This, however, is not a regular occurrence as in
N. cymodocea.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 387

ig. 122.

Nemertesia cymodocea. A, stem; B, part of stem with three hydrocladia per whorl and female
gonothecae (nematothecae omitted); C, hydrocladium.
Nemertesia ramosa. D, part of stem with three hydrocladia per whorl and female gonothecae
(nematothecae omitted); E, typical hydrocladium with no median superior nematotheca;
F, hydrocladium with small hydrothecae and with median superior nematothecae;
G, hydrocladium from old stem and with median superior nematothecae; H, stem.
Scale: A and H in cm, the rest in mm/10.

388 ANNALS OF THE SOUTH AFRICAN MUSEUM

In the hydrocladial internodes septa commonly occur, including one at the
proximal end and one at the distal end, the number increasing with age, so
that in old colonies as many as 12 may be present.

The median superior nematotheca is not invariably present in the thecate
internodes. It is sometimes absent altogether, or may be cut off on an athecate
internode.

Variation also occurs in the gonothecae. Female gonothecae normally have
the aperture facing towards the stem, but examples have been seen where the
gonothecae, containing embryos, are quite symmetrical and with terminal
apertures.

Distribution. Cosmopolitan. Type locality: “European Ocean’. Syntype from
Dieppe and Calvados (Redier 1967).

Distribution in South Africa. From off Table Bay, round the south coast and up
the east coast to Mocgambique, in 11-700 m. 33/18 (s), 34/18 (s), 35/21 (d),
34/22 (s), 35/22 (d), 34/23 (d), 33/25, 34/25 (s, d), 30/31 (d), 29/31 (d, vd),
27/32 (d), 25/35 (vd), 24/35 (d)

Genus Plumularia Lamarck, 1815

Diagnosis. Stem branched or unbranched (always unbranched in South Africa),
bearing hydrocladia. Rarely with simple forms where the hydrocladia arise
directly from the hydrorhiza. Hydrocladia alternate, sometimes with the whole
plume spirally twisted (though not in South Africa), unbranched.

Type species: Sertularia setacea Linnaeus, 1758

KEY TO SPECIES

1. Hydrocladium bearing one hydrotheca only a a: Se a me Ze ee
— Hydrocladium bearing more than one hydrotheca ae A 3 oe oe
2. Hydrotheca with adcauline intrathecal septum. Hydrocladium enter in spine P. spinulosa
— Hydrotheca without intrathecal septum. Hydrocladium broadly rounded distally .. 3
3. Hydrotheca with concave abcauline wall. Two nematothecae in axil of hydro-

cladium Es ae P. pulchella
— Hydrotheca with convex to straight abcauline pall One nematotheca in axil of

hydrocladium aes : a ne .. P. obliqua
4. Hydrotheca adnate for half or ieee of eacauline het a ae a ies
— Hydrotheca completely adnate or practically so uae Re ire ee
5. Hydrotheca with adcauline intrathecal septum. Gonotheca flat on substrata P. filicaulis
— Hydrotheca without intrathecal septum. Gonotheca borne on stem .. Bs Be lO
6. Each stem internode with three nematothecae, two in axil of hydrocladium and one

on opposite surface. Hydrotheca with free part of adcauline wall concave P. pennycuikae
Stem with numerous nematothecae in two longitudinal rows. Hydrotheca with free

part of adcauline wall straight .. a 1 ae a - .. P. wasini
7. Abcauline wall of hydrotheca markedly convex * eh rs P Bee
— Abcauline wall of hydrotheca more or less straight 8

8. One nematotheca on each hydrocladial apophysis. Hydrotheca sited more or vleen in
centre of internode 3

— Two nematothecae on each hydrocladial apophysis. Hydrotheca usually not: in n centre
of internode ah iy, es ty: ee a: we is As Bo Lil

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 389

9. Gonotheca transversely annulated, borne on base of stem only P. strictocarpa
— Gonotheca smooth, borne at any level on stem oe ea ree of aa 2D
10. Female gonotheca with external marsupium, without neck .. ~ .. P. warreni
— Female gonotheca without marsupium, with curved tubular neck .. .. P. setacea

11. Athecate internodes, when present, cut off from proximal end of thecate internodes,
when not present hydrotheca seated on distal half of internode. First hydrocladial
internode very short (less than 4 normal thecate internode) .. ave P. antonbruuni

— Athecate internodes, when present, cut off from distal end of thecate internodes,
when not present hydrotheca seated on proximal half of internode. First hydrocladial
internode not very short (about 4 normal thecate internode) .. .. P. mossambicae

Plumularia antonbruuni Millard, 1967

Fig. 123A-D
Plumularia antonbruuni Millard, 1967: 185, fig. 5.

Diagnosis. Hydrorhiza penetrating into soft substratum, branching and fila-
mentous. Stem unfascicled, reaching 51 mm, bearing alternate hydrocladia,
indistinctly divided into internodes in upper region only, by straight nodes.
Where demarcated each internode bearing one hydrocladial apophysis in distal
half and three nematothecae, one on opposite side to apophysis and two on
apophysis. No internodal septa. Mamelon present on upper surface of apophysis.
The two rows of hydrocladia in one plane.

Hydrocladium bearing hydrothecae on upper surface, consisting of one
very short athecate internode, then either all long thecate internodes or alter-
nate athecate and thecate internodes, the latter condition being more common
towards the distal end and the athecate internodes being cut off from the
proximal ends of the thecate internodes. Nodes slightly oblique. First internode
without nematothecae, with one internodal septum. Other athecate internodes
with 0-2 median nematothecae and two internodal septa, one proximal and one
distal. Thecate internodes with 0-3 median inferior nematothecae, the upper-
most not reaching base of hydrotheca, one pair laterals overreaching thecal
margin and sometimes one median superior; with two internodal septa, one
proximal and one distal. Hydrotheca seated in distal half of internode in regions
where no athecate internodes occur and in centre of internode in regions with
athecate internodes.

Hydrotheca cup-shaped, completely adnate, widening to margin, with no
intrathecal septum, with more or less straight abcauline wall and convex
adcauline wall, 0,08-0,10 mm in abcauline depth and 0,11-0,12 mm in marginal
diameter. Margin oblique.

Nematothecae all two-chambered and movable, with funnel-shaped distal
chamber.

Gonothecae borne on hydrocladial apophyses of stem. Only the male
known: without nematothecae, smooth, elongated, with terminal aperture,
held at a small angle (10-15°) to stem.

Distribution. Endemic to South Africa.

390 ANNALS OF THE SOUTH AFRICAN MUSEUM

Distribution in South Africa. Type locality and only record: off Natal in 440 m,
29/31 (d)

Plumularia filicaulis Kirchenpauer, 1876

Fig. 123H-L

Plumularia filicaulis Kirchenpauer, 1876: 47, pl. 5 (fig. 6). Bale, 1884: 134, pl. 11 (figs 6-7),
pl. 19 (figs 41-42). Leloup, 1934: 4. Millard, 1958: 209, fig. 13D-E.

Diagnosis. Hydrorhiza creeping on weed, flattened and ribbon-shaped, with

very thick perisarc and internal projections, giving rise to both pinnate and

simple stems.

Pinnate stem unfascicled, reaching a height of 6 mm, bearing alternate
hydrocladia, divided into regular internodes by distinct nodes. Lowest nodes
very strong and very oblique, resembling hinge-joints, becoming less marked
and less oblique distally. Each internode bearing one hydrocladial apophysis
in centre or in distal half and two median nematothecae, one near the base and
one next to the apophysis. Mamelon present on upper surface of apophysis.
The two rows of hydrocladia not in the same plane, but displaced towards the
anterior surface.

Hydrocladium bearing up to six hydrothecae on anterior surface, with
perisarc of anterior surface greatly thickened around origins of hydrothecae
and nematothecae; consisting of one short, athecate, anematothecate internode;
sometimes a second short athecate internode with one nematotheca; then
alternate long thecate and short athecate internodes terminated by transverse
and oblique nodes respectively. Athecate internodes other than the first with
one median nematotheca. Thecate internodes with three nematothecae, one
median inferior reaching to base of hydrotheca and one pair laterals not reaching
to thecal margin.

Simple stem arising from apophysis of hydrorhiza, reaching 5 mm in height,
representing an independent hydrocladium and exactly similar to a hydro-
cladium in structure except that the first two nodes (bounding the first athecate
internode) are very strongly developed and resemble hinge-joints.

Hydrotheca cup-shaped, adnate for only a small part of adcauline wall,
with an adcauline intrathecal septum and a curved abcauline wall, 0,09-0,15 mm
in height and 0,18-0,3 mm in marginal diameter. Margin forming an angle of
about 45° with hydrocladium, produced to form a peak on the adcauline and on
the abcauline side.

Median nematotheca immovable, two-chambered, with very small basal
chamber and large curved distal chamber in which the adcauline wall is almost
completely cut away. Lateral nematotheca movable, two-chambered, with very
small basal chamber and long, funnel-shaped distal chamber.

Gonothecae borne on hydrorhiza and firmly applied to substratum,
flattened, with very thick perisarc, irregularly ovate in outline, with a circular
aperture on upper surface near one end and a variable number of minute pores
on upper surface.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 39]

AWB GA

Fig. 123.

Plumularia antonbruuni. A and.B, hydrocladia, A with only thecate internodes, B with alternate
athecate and thecate internodes; C, part of stem with gonothecae and origins of hydro-
cladia; D, stem.

Plumularia mossambicae sp. nov., from holotype. E, stem; F, part of stem showing origins of
hydrocladia; G, hydrocladium.

Plumularia filicaulis. H, hydrocladium; J, stem in anterior view showing origins of hydrocladia;
K, male gonophore; L, fertile colony growing on weed, with pinnate stems, simple stems
and gonothecae.

Scale: D, E and L in cm, the rest in mm/10.

392 ANNALS OF THE SOUTH AFRICAN MUSEUM

Variation and remarks. This species shows considerable variation in its method of
branching. Apart from its ability to exist in a pinnate and a simple form in the
same colony, the simple stem occasionally produces a few irregular branches,
and in one case a branch was seen to arise from within a hydrotheca. Further,
in some cases the terminal part of a pinnate stem, after the origin of the last
hydrocladium, may bear hydrothecae and is thus continued as a hydrocladium.

Thus, in its ability to bear cauline hydrothecae and also in the closely
packed hydrothecae and the immovable median nematothecae, the species
shows relationships with the subfamily Halopterinae.

Distribution outside South Africa. Chile (type locality), south-east Madagascar,
Australia. (var. japonica from Japan.)

Distribution in South Africa. From South West Africa to Hermanus; Mocam-
bique; littoral to 27 m. 26/15 (1), 33/18, 34/18 (s), 34/19, 26/32 (s), 24/35 (s),
23/35 (1)

Plumularia lagenifera Allman, 1886
Fig. 124A—D

?Aglaophenia Gaimardi Lamouroux, 1824: 611, pl. 95 (figs 9-10).

spas ie lagenifera Allman, 1886: 157, pl. 26 (figs 1-3). Broch, 1914: 26. Millard, 1957:
is ees lagenifera var. septifera Torrey, 1902: 78, pl. 11 (figs 101-102). Ritchie, 1909: 87,
2Plumularia setacea var Gaimardi: Billard, 1909: 325, fig. 10.

Diagnosis. Hydrorhiza creeping, with or without internal perisarcal thickenings,
flattened, bearing nematothecae. Stem unfascicled, reaching 45 mm in height,
bearing alternate hydrocladia, divided into regular internodes by straight or
slightly oblique nodes. Each internode bearing one hydrocladial apophysis in
distal half and two nematothecae, one near base and one in axil of apophysis.
Three or four internodal septa, including one near base, one near distal end
and one in apophysis. Mamelon present on upper surface of apophysis. The
two rows of hydrocladia not in one plane but displaced towards the anterior
surface.

Hydrocladium bearing hydrothecae on upper surface, consisting of alternate
short athecate and long thecate internodes terminated by oblique and transverse
nodes respectively. First athecate internode without nematothecae, with one
internodal septum. Other athecate internodes with one median nematotheca
and one or two internodal septa. Thecate internodes with three nematothecae,
one median inferior seated well below hydrotheca or just reaching its base and
one pair laterals overreaching thecal margin, and with at least two internodal
septa including one near base and one near distal end.

Hydrotheca cup-shaped, completely adnate, narrowing to margin, with no
intrathecal septa, with abcauline wall distinctly convex and thickened, at
least at margin, 0,06-0,17 mm in abcauline depth and 0,07-0,14 mm in marginal

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 393

diameter. Margin perpendicular to hydrocladium or almost so. Hydranth with
about 17 tentacles.

Nematothecae all two-chambered and movable, with adcauline wall slightly
lower than abcauline.

Gonothecae borne on hydrocladial apophyses of stem, dimorphic, male
and female on separate colonies, without fematothecae, compressed, ovate in
outline, with terminal aperture. Female about twice as long as broad, with
aperture mounted on slender curved neck. Male about three times as long as
broad, with shorter and less obviously curved neck.

Variation. A form described by Torrey as var. septifera occurs, in which the
perisarc is in general much thicker and all internodes and hydrothecae are
shorter. Thus the internodal septa are stronger, the whole abcauline wall of the
hydrotheca is thickened, and the hydrotheca is wider than deep in contrast to
the normal form which is deeper than wide. Internal thickenings of perisarc
also occur in the hydrorhiza. This appears to be a growth-form only and all
intermediate stages occur between it and the normal form.

Minor variations occasionally encountered include stolonization from the
distal end of the stem, extra cauline internodes without hydrocladia, extra
athecate internodes in the hydrocladia, extra cauline nematothecae (though not
in axils) and branching hydrocladia. The curvature in the neck of the gonotheca
varies considerably from almost straight to so strongly curved that the aperture
faces downwards.

Remarks. This species is closely related to P. setacea, differing only in the shape
of the hydrotheca. Discovery of intermediate forms may necessitate the
combination of the two.

Distribution outside South Africa. West coast of America from Chile to Alaska.
Type locality: Vancouver Island.

Distribution in South Africa. South West Africa to Hermanus; Knysna Estuary;
littoral to 51 m. 26/15 (1, s), 28/16 (s), 32/17 (1), 32/18 (s), 33/17 (s), 33/18 (, s),
34/18 (s), 34/19, 34/23 (s)

Plumularia mossambicae sp. nov.
Fig. 123E-G

Material. The holotype, SAM—H1866, includes a single stem 12 mm in height.
Position: off Mocambique, 24°46’S/35°18’E, 110 m, 18/8/1964.

Description. Hydrorhiza branching and filamentous for penetration of sub-
‘stratum. Stem unfascicled, bearing alternate hydrocladia, the two rows in one
plane. Nodes transverse, not very distinct, irregular. Each internode bearing
1-5 hydrocladia (of which the first two are opposite, though broken off short,
and the rest alternate). No internodal septa in main axis. Hydrocladial apophysis
with a mamelon on upper surface and a weak internodal septum. Cauline

ANNALS OF THE SOUTH AFRICAN MUSEUM

WW LALULESS SI

‘ SSSA
RSS WS WY) ds
F\ SSAA
4 yyy yyy

Ree DD ay \

— Px Wy »» UY,
6 &

Fig. 124.

Plumularia lagenifera. A and B, hydrocladia, both from same sample; C, colony; D, stem in
anterior view showing female gonothecae and origins of hydrocladia.

Plumularia setacea. E, colony; F, part of stem showing male gonotheca and origins of hydro-
cladia; G, hydrocladium; H, female gonotheca; J and K, stem and hydrocladium of

epizootic form.
Scale: C and E in cm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 395

nematothecae: two in axil of each apophysis, none on main axis of stem.

Hydrocladium very slender, with one athecate internode of moderate
length, generally followed by long thecate internodes only, but sometimes with
intermediate athecate internodes present towards the distal end. First athecate
internode without nematothecae, with two internodal septa, one proximal and
one distal. Thecate internode with two poorly defined internodal septa, one
proximal and one distal; with one median inferior nematotheca well below
the hydrotheca, one pair of laterals overtopping thecal margin and with or
without one median superior nematotheca. Intermediate internode, when pre-
sent, with two poorly defined internodal septa, one proximal and one distal,
and one median nematotheca. When no athecate internodes occur the hydro-
theca is seated in the proximal half of the internode. When intermediate inter-
nodes occur, they appear to be formed by cutting off the distal end of a thecate
internode together with the median superior nematotheca. The previous thecate
internode is then shorter than normal with the hydrotheca seated more or less in
the centre and there is no median superior nematotheca. In one case the proximal
end of the first thecate internode is cut off, taking with it the median inferior
nematotheca.

Hydrotheca completely adnate, with more or less straight abcauline wall
and slightly convex adcauline wall. Width at margin exceeding depth.

Nematothecae all two-chambered and movable, very large, especially the
laterals which may be nearly twice the length of the hydrotheca.

Gonothecae absent.

Measurements (mm)

Stem internode, length .. dex fe oF a: a 2.150559 -2,10
diameter at node... ae me ae - oe ‘ie 0,08
Hydrocladium, first athecate internode, length + ys .. 0,22-0,24
normal thecate internode, length .. i o hs .. 0,72-0,84
diameter in centre WF ne a = ee a 0,04
athecate internode, other than first, length ES: «s .. Q,31-0,44
Hydrotheca, depth abcauline .. e. ae sf cy. .. 0,06—0,075
diameter at margin .. i: se a 5 ue .. 0,08-0,085
Lateral nematotheca, length .. 2.8 Bs ms af .. 0,09-0,11

Remarks. This species is closely related to Plumularia antonbruuni. It differs
from it in the following characters:
(i) The stem internodes bear more than one hydrocladium each.
(ii) There are no cauline nematothecae on the main axis.
(iii) The first internode of the hydrocladium is not particularly short.
(iv) The hydrotheca is seated on the proximal half of the internode, and inter-
mediate athecate internodes, when present, are cut off from the distal parts
of the thecate internodes.

The species is also close to P. ventriculiformis Marktanner-Turneretscher,
1890, resembling it in the arrangement of the stem internodes (though Mark-
tanner mentions an occasional cauline nematotheca) and in the position of the

396 ANNALS OF THE SOUTH AFRICAN MUSEUM

hydrotheca on the thecate internode. It differs in the constant presence of an
athecate internode at the base of each hydrocladium.

Distribution. Endemic to South Africa.

Distribution in South Africa. The only record is the type material recorded
above. 24/35 (d).

Plumularia obliqua (Johnston, 1847)
Fig. 125A-B
Laomedea obliqua Johnston, 1847: 106, pl. 28 (fig. 1).
Plumularia obliqua: Bale, 1884: 138, pl. 12 (figs 1-3). Hincks, 1868: 304, fig. 36, pl. 67 (fig. 1).

Pennycuik, 1959: 180. Millard & Bouillon, 1974: 34, fig. 8A—D.

?Monotheca posidoniae Picard, 1951: 341, fig. 2B.

Diagnosis. Hydrorhiza creeping on weed, with internal projections of perisarc.
Stem unfascicled, reaching a maximum height of 5 mm, bearing up to 13
alternate hydrocladia, divided into internodes by straight nodes, each bearing
one hydrocladial apophysis in distal half. The two rows of hydrocladia in one
plane. Each internode bearing two nematothecae (one in axil of apophysis and
one on opposite side of internode). Mamelon present on upper side of apophysis.
At least three internodal septa, one proximal, one distal and one in apophysis.

Hydrocladium bearing one hydrotheca only, consisting of two internodes,
one short and athecate, and one long and thecate. Athecate internode with one
or two internodal septa and no nematothecae. Thecate internode bearing the
hydrotheca on the anterodistal surface, narrowed and curved round the thecal
wall, then widening to a broad, rounded distal end terminating very slightly
below thecal margin. Three nematothecae: one median inferior reaching
approximately to thecal base and one pair laterals above thecal margin.

Hydrotheca slightly compressed, cup-shaped, completely adnate, with a
smoothly convex to straight abcauline wall, adcauline wall with margin everted
over end of internode, with no intrathecal septum, 0,17-0,2 mm in abcauline
height and 0,12-0,17 mm in marginal diameter.

Nematothecae all two-chambered and movable. Median and cauline
nematothecae with adcauline wall lower than abcauline. Lateral nematotheca
deeply cut away on upper face.

Gonotheca (not reported from South Africa) very large, ovate, truncated
distally (Hincks).

Variation. Extra regenerative nodes often appear in the stem. The thickness of
the perisarc is variable, and young hydrocladia have no internodal septa behind
the hydrotheca while old ones have two strong septa.

Distribution outside South Africa. North Atlantic, Mediterranean, Australia,
Japan. Type locality: Brighton, England.

Distribution in South Africa. Inhaca and Transkei coast, littoral to 15 m.
31/29 (1), 26/32(1,'s)

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 397

Fig. 125.

Plumularia obliqua. A, stem; B, hydrocladium.

Plumularia pulchella. C, hydrocladium; D, stem with gonothecae.

Plumularia spinulosa. E, stem with gonotheca; F-J, different views of hydrocladium, F from
the side (lateral nematotheca removed), G, oblique view showing opening of funnel into
septum, H, from behind, and J from above looking onto septum.

Scale in mm/10.

398 ANNALS OF THE SOUTH AFRICAN MUSEUM

Plumularia pennycuikae Millard & Bouillon, 1973
Fig. 126A-—C

Plumularia sp. Pennycuik, 1959: 183, pl. 3 (fig. 7).

Plumularia pennycuikae Millard & Bouillon, 1973: 85, fig. LON, P. Hirohito, 1974: 39, fig. 18.
Diagnosis. Stem unfascicled, branched or unbranched, reaching 13 mm in height,
bearing alternate hydrocladia, divided into internodes by transverse nodes.
Each internode bearing one hydrocladial apophysis at distal end and three
nematothecae, two in axil and one on opposite surface, usually with one inter-
nodal septum at proximal end. Mamelon present on upper surface of apophysis.
Branches, when present, arising next to hydrocladium from same apophysis,
similar to stem. The two rows of hydrocladia in same plane.

Hydrocladium bearing hydrothecae on upper surface, consisting of one
very short athecate and anematothecate internode terminated by an oblique
node, then alternate long thecate and shorter athecate internodes terminated by
transverse and oblique nodes respectively. First internode with two internodal
septa, one proximal and one distal. Other athecate internodes with one median
nemathotheca, with or without septa. Thecate internodes with three nemato-
thecae, one median inferior reaching approximately to base of hydrotheca and
one pair laterals not reaching thecal margin, without septa. Hydrotheca seated
more or less in centre of internode.

Hydrotheca cup-shaped, adnate for about half adcauline length or a little
more, with no intrathecal septum, with straight abcauline wall and with
adcauline wall distinctly concave in free section, 0,13-0,15 mm in abcauline
length and 0,12-0,15 mm in marginal diameter. Margin oblique.

Nematothecae all two-chambered and movable, with funnel-shaped distal
chamber. Adcauline wall lower than abcauline in median nematothecae.

Gonothecae (not reported from South Africa) borne on apophyses of stem;
female small, oval to spherical, containing one egg which develops into a
planula in situ. Male gonotheca unknown.

Distribution outside South Africa. Seychelles, Queensland, Australia, and Japan.
Type locality: Silhouette Island, Seychelles.

Distribution in South Africa. Santa Carolina in Mocgambique only. 21/35

Plumularia pulchella Bale, 1882
Fig. 125C-D

Plumularia pulchella Bale, 1882: 30, pl. 15 (fig. 6). Bale, 1884: 140, pl. 12 (fig. 6), pl. 19 (fig.
37). Totton, 1930: 221, fig. 58. Ralph, 19615: 39, fig. Sc-e.

Plumularia flexuosa Bale, 1894: 115, pl. 5 (figs 6-10).

Plumularia (Monotheca) flexuosa: Stechow, 1925a: 499.

Diagnosis. Hydrorhiza creeping, with or without internal projections of perisarc.
Stem unfascicled, reaching a height of about 10 mm, bearing up to 29 alternate
hydrocladia. Divided into regular internodes by distinct nodes, each bearing
one hydrocladial apophysis in distal half. The two rows of hydrocladia in the

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 399

same plane or displaced very slightly towards the anterior surface. Each inter-
node bearing three nematothecae (one in basal half, two in axil of apophysis).
Mamelon present on upper surface of apophysis.

Hydrocladium bearing one hydrotheca only. Consisting of two internodes,
one short and athecate and one long and thecate. Athecate internode with two
internodal septa and no nematothecae. Thecate internode bearing the hydrotheca
on the upper surface, with its distal end narrowed and curved round the adcauline
thecal wall, then widening to a broadly rounded distal end terminating just
below the thecal margin. Three nematothecae: one median inferior reaching
above base of hydrotheca to about a third of its height, and one pair laterals
overtopping thecal margin.

Hydrotheca cup-shaped, completely adnate, widening distally and curved
away from hydrocladium, with concave abcauline wall, with no intrathecal
septa, 0,09-0,13 mm in depth and 0,10-0,14 mm in marginal diameter. Margin
almost perpendicular to hydrocladium.

Nematothecae all two-chambered, movable and funnel-shaped.

Gonothecae borne on hydrocladial apophyses, usually smooth, ovate,
tapering below to slender, curved base, truncated distally, with wide terminal
aperture.

Variation. The stem occasionally gives off 1-3 branches. These replace hydro-
cladia and are quite irregular in arrangement. At the base of the stem there may
be up to four irregular internodes, occasionally with nematothecae.

The presence or absence of internodal septa is variable. Usually there is
one in each hydrocladial apophysis, two in the athecate internode of the
hydrocladium and up to two in the thecate internode behind the hydrotheca.

Regeneration after injury may result in extra irregular internodes in the
stem or in the hydrocladia. Thus the latter may have two athecate internodes
at the base, of which one may bear a nematotheca.

The gonothecae are variable in appearance, being sometimes smooth and
sometimes irregularly corrugated. The aperture is usually at right angles to
the axis, but it may be slightly oblique. Some of the gonothecae have a raised
collar around the opening.

Distribution outside South Africa. Australia (type locality), New Zealand, Vema
Seamount (South Atlantic), Japan.

Distribution in South Africa. West coast of Cape Peninsula to Natal, littoral to
100 m. 33/18 (1), 34/18 Cl, s), 35/19 (s), 35/20 (d), 34/22 (s), 34/23 (s, h), 33/25
(s), 34/25 (s), 33/27 (s), 32/28 (s), 29/31 (s), 28/32 (d)

Plumularia setacea (Linnaeus, 1758)

Fig. 124E-K

Sertularia setacea Linnaeus, 1758: 813.

Plumularia setacea: Hincks, 1868: 296, fig. 34, pl. 66 (fig. 1). Broch, 1914: 25, pl. 1 (fig. 1).
Ralph, 19615: 33, figs 3e, 4a, c-d. Vervoort, 1966b: 142, fig. 43. Millard, 1968: 278,
fig. SF-H. Millard, 1973: 27, fig. 3.

400 ANNALS OF THE SOUTH AFRICAN MUSEUM

Diagnosis. Hydrorhiza creeping. Stem unfascicled, generally 10-20 mm in
height (maximum 40 mm), bearing alternate hydrocladia, divided into regular
internodes by transverse or slightly oblique nodes. Each internode bearing one
hydrocladial apophysis in distal half and two nematothecae, one near base on
side opposite to apophysis and one on apophysis. Internodal septa present or
absent; when present including one in proximal region, one in distal region and
one in apophysis. Mamelon present on upper surface of apophysis. The two
rows of hydrocladia not in one plane but displaced towards the anterior surface.

Hydrocladium bearing hydrothecae on upper surface, consisting of one
very short athecate internode, then alternate long thecate and shorter athecate
internodes terminated by transverse or slightly oblique nodes. First internode
without nematothecae, with one internodal septum. Other athecate internodes
with one median nematotheca and two internodal septa, one proximal and one
distal. Thecate internodes with three nematothecae, one median inferior not
reaching base of hydrotheca and one pair laterals overreaching thecal margin,
and with at least two internodal septa including one near base and one near
distal end. Hydrotheca generally seated in centre of internode.

Hydrotheca cup-shaped, completely adnate, widening to margin, with no
intrathecal septum, with straight abcauline wall, 0,06—-0,12 mm in abcauline
depth and 0,08—0,12 mm in marginal diameter. Margin slightly oblique.

Nematothecae all two-chambered and movable, with funnel-shaped distal
chamber.

Gonothecae borne on hydrocladial apophyses of stem, dimorphic, male
and female on separate colonies, without nematothecae, elongated, with terminal
aperture. Male very slender, with small aperture. Female larger, compressed,
with larger aperture on tubular neck, which may be curved slightly to one side,
containing about eight eggs which develop into planulae in situ.

Variation. The hydrotheca of this species is known to vary in size. Normally it
is 3-3 length of the internode, but Broch (1914) distinguished a forma micro-
theca in which it is only }-+ length of the internode. In South Africa there are all
variations between these limits.

An epizootic form of the species commonly occurs on other hydroids (e.g.
on Nemertesia cymodocea and Salacia articulata), which is characterized by a
greater or lesser degree of stunting. The stem is usually under 10 mm in height,
and the hydrocladia are short, bearing one, or at most, four hydrothecae. The
nematothecae are also reduced in size, especially the laterals which may be
minute

Less important variations include branching of the stem, variation in length
of stem internodes, the placing of the two rows of hydrocladia in one plane,
extra internodal septa and extra nematothecae (e.g. on the stem internodes and
on the thecate hydrocladial internodes).

Because of the possibility of confusion between this species and P. warreni

and P. strictocarpa, only records with mature gonophores have been quoted
below.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 401

Distribution. Cosmopolitan. Type locality: U.K.

Distribution in South Africa. All round the coast, common in the littoral region
and shallow water, rare in deeper water to 430 m. 26/15 (1), 32/18 (1, s), 33/17 (s),
33/18 (1, s), 34/18 (1, s, h), 35/19 (s), 34/20 (1), 34/22 (s), 34/23 (s), 33/25 (s, h),
34/25 (s) 33/27 (1), 31/29 (1), 31/30 (1), 30/30 (1), 29/31 (1, s, d), 28/32 (s), 25/32 (s)

Plumularia spinulosa Bale, 1882

Fig. 125E-J

Plumularia spinulosa Bale, 1882: 30, pl. 15 (fig. 8). Bale, 1884: 139, pl. 12 (figs 11-12). Bale,
1888: 783, pl. 19 (figs 11-13). Warren, 1908: 320. Millard, 1962: 301.

Monotheca spinulosa var. obtusa Stechow, 1923c: 224.
Plumularia spinulosa var. obtusa: Millard, 1957: 232.
Plumularia spinulosa var. typica: Millard, 1958: 212.
Plumularia spinulosa var. spinulosa: Ralph, 19616: 37, fig. 4i-j.
Diagnosis. Hydrorhiza creeping, strengthened by internal projections of perisarc.

Stem unfascicled, reaching a height of about 5 mm, bearing up to 18
alternate hydrocladia; divided into regular internodes by distinct nodes, each
bearing one hydrocladial apophysis. The two rows of hydrocladia in the same
plane or displaced slightly towards the anterior surface. Each internode usually
with three internodal septa (one near base, one near distal end and one in
apophysis) and bearing two nematothecae (one near base and one in axil of
apophysis). Mamelon present on upper surface of apophysis.

Hydrocladium bearing one hydrotheca only. Consisting of two internodes,
one short and athecate and one long and thecate. Athecate internode with one
internodal septum and no nematothecae. Thecate internode bearing the hydro-
theca on the upper surface and with its distal end curved round the adcauline
thecal wall, ending in a short, bluntly pointed spine at or above the thecal
margin. Usually one or two internodal septa behind adcauline thecal wall.
Three nematothecae: one median inferior reaching approximately to base of
hydrotheca and one pair of laterals overtopping thecal margin.

Hydrotheca laterally compressed, completely adnate, with convex abcauline
wall; with a strong adcauline intrathecal septum projecting about half-way
across cavity and with a funnel-shaped opening into it on each side; with an
abcauline intrathecal septum near base, so that expanded hydranth is twisted
into an S-shape. Margin perpendicular to hydrocladium, somewhat sinuated
in adcauline region. Hydrotheca 0,12-0,18 mm in depth and 0,10-0,17 mm in
marginal diameter. Hydranth with about 13 tentacles.

Nematothecae all two-chambered and movable. Wall of distal chamber
lower on adcauline side.

Gonothecae borne on hydrocladial apophyses, smooth, deep-campanulate
and sometimes curved asymmetrically, with a wide terminal aperture, containing
one or two gonophores.

Variation. The most obvious variations are in the length of the terminal hydro-
cladial spine, which may just reach the thecal margin or may be produced above

402 ANNALS OF THE SOUTH AFRICAN MUSEUM

it, and in the position of the hydrocladial apophysis, which may arise either
from the distal end of the stem internode or from its centre. Both variations may
occur within the same colony.

Minor variations include the presence or absence of one or two irregular
internodes without hydrocladia or nematothecae at the base of the stem, the
position of the basal nematotheca on the stem internode, and the number of
internodal septa which may be greater or less than the number given in the
diagnosis depending on the strength of the perisarc in the colony as a whole.
A few instances of a branching stem have been seen.

Distribution outside South Africa. Australia (type locality), New Zealand, Japan,
Vema Seamount (South Atlantic).

Distribution in South Africa. False Bay to Natal, littoral to 56 m. 34/18 (s),
34/22 (Ss), 33/25 (S),. 34/25), 33/26 (G); 33/27 C's); 32/286) 531/29.) ss SOne:
S0/S0KEs)s 29) Biles)

Plumularia strictocarpa Pictet, 1893
Fig. 126D-E

Plumularia strictocarpa Pictet, 1893: 55, pl. 3 (figs 47-49). Stechow & Uchida, 1931: 565, fig.

12, pl. 15 (ig. 6). Millard & Bouillon, 1973: 88, fig. 11A—B.

Diagnosis. Stem unfascicled, reaching 10 mm in height, bearing alternate hydro-
cladia, divided into regular internodes by transverse nodes. Each internode
bearing one hydrocladial apophysis at distal end and two nematothecae, one in
axil and one on opposite side of internode. Internodal septa usually absent.
Mamelon present on upper surface of apophysis. The two rows of hydrocladia
in one plane.

Hydrocladium bearing hydrothecae on upper surface, consisting of one
very short athecate internode terminated by an oblique node, then alternate
long thecate and shorter athecate internodes terminated by straight or slightly
oblique nodes. First internode without nematothecae, with one internodal
septum. Other athecate internodes with one median nematotheca and usually
two internodal septa, one proximal and one distal. Thecate internodes with
three nematothecae, one median inferior seated well below base of hydrotheca
and one pair laterals overreaching thecal margin, and with at least one internodal
septum at proximal end. Hydrotheca seated more or less in centre of internode.

Hydrotheca cup-shaped, almost completely adnate, widening to margin,
with no intrathecal septum, with straight abcauline wall, 0,06-0,08 mm in
abcauline depth and 0,08-0,11 mm in marginal diameter. Margin slightly
oblique.

Nematothecae all two-chambered and movable, with funnel-shaped distal
chamber.

Gonothecae borne on lower part of stem only, on apophyses of hydrocladia
which have usually fallen off, elongate-oval, transversely annulated, with

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 403

Fig. 126.

Plumularia pennycuikae. A, stem; B, part of stem showing origins of hydrocladia;
C, hydrocladium.
Plumularia strictocarpa. D, lower part of stem with female gonothecae; E, hydrocladium.
Plumularia warreni. F, hydrocladium; G, anterior view of stem with female gonothecae and
their marsupia; H, stem with male gonothecae.
Scale: A in mm, the rest in mm/10.

404 ANNALS OF THE SOUTH AFRICAN MUSEUM

terminal aperture and no neck, reaching 1,0 mm in length and 0,6 mm in
maximum diameter. Young ones shorter and truncated.

Remarks. This species cannot be distinguished from P. setacea in the absence of
gonothecae.

Distribution outside South Africa. Circumglobal in tropical and subtropical
waters. Type locality: Bay of Amboine, East Indies.

Distribution in South Africa. Santa Carolina in Mogambique only. 21/35

Plumularia warreni Stechow, 1919
Fig. 126F—H

Plumularia tenuis Warren, 1908: 316, fig. 13.
Plumularia warreni Stechow, 19196: 119. Millard, 1958: 213. ?Pennycuik, 1959: 181, pl. 4.
Mammen 19€5b: 299, figs 94-95.

Diagnosis. Hydrorhiza creeping, usually on weeds, with internal projections of
perisarc. Stem unfascicled, reaching a maximum height of 22 mm, bearing
alternate hydrocladia, divided into regular internodes by transverse nodes.
Each internode bearing one hydrocladial apophysis in distal half and two
nematothecae, one near the base on anterior surface and one on apophysis.
Internodal septa present or absent; when present including one in proximal
region, one in distal region and one in apophysis. Mamelon present on upper
surface of apophysis. The two rows of hydrocladia usually not in one plane but
displaced towards anterior surface.

Hydrocladium bearing kydrothecae on upper surface, consisting of one
very short athecate internode, then alternate long thecate and shorter athecate
internodes terminated by transverse or oblique nodes. First internode without
nematothecae, with one internodal septum. Other athecate internodes with one
medial nematotheca and usually two internodal septa, one proximal and one
distal. Thecate internodes with three nematothecae, one median inferior not
reaching to base of hydrotheca and one pair laterals overreaching thecal margin,
and usually with at least two internodal septa including one near base and one
near distal end. Hydrotheca seated more or less in centre of internode.

Hydrotheca cup-shaped, completely adnate, widening to margin, with no
intrathecal septum, with more or less straight abcauline wall, 0,06-0,11 mm in
abcauline depth and 0,09-0,14 mm in marginal diameter. Margin slightly
oblique. Hydranth with 18-20 tentacles.

Nematothecae all two-chambered and movable, with funnel-shaped distal
chamber.

Gonothecae borne on hydrocladial apophyses of stem, dimorphic, male
and female on separate colonies, without nematothecae, transverse-oval in
section, with terminal aperture. Male elongated, often slightly curved, with
irregular outline, reaching 0,8 mm in length. Female elongate-oval, smooth or
with irregular outline, without neck, eggs extruded into an external marsupium,
where they develop into planulae; young ones with truncated distal end.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 405

Variation. Occasionally the stem branches near the base.

Remarks. This species cannot be distinguished from P. setacea in the absence of
gonothecae. A form of the species occurs on the west coast of the Cape Peninsula
in which the hydrocladia have only one or two thecate internodes and in which
there is usually a deficiency in the nematotheca complement, in many stems
only the laterals remaining. The female gonophores are also larger than those
from the east coast.

Distribution outside South Africa. Queensland, Madagascar, Seychelles, and
southern India. Type locality: Natal, South Africa.

Distribution in South Africa. Coast of Natal and Mocambique, littoral, with two
records from the west coast of the Cape Peninsula. 33/18 (1), 34/18 (1), 29/31 (1),
D732 (); 26/32 (1), 24/35 (S), 23/25 (), 21/35

Plumularia wasini Jarvis, 1922

Fig. 127
Plumularia wasini Jarvis, 1922: 349, fig. 1, pl. 26 (fig. 23). Millard, 1962: 301, fig. 8.

Diagnosis. Hydrorhiza creeping. Stem unfascicled, reaching 36 mm in height,
bearing alternate hydrocladia, divided into internodes of irregular length by
transverse nodes, of much greater diameter than hydrocladia. Each internode
bearing 1-5 short hydrocladial apophyses, the two rows of hydrocladia in the
same plane. No internodal septa. Nematothecae numerous, in two longitudinal
rows. No mamelon.

Hydrocladium bearing hydrothecae on upper surface, consisting of alter-
nate short athecate and longer thecate internodes terminated by oblique and
transverse nodes respectively. Each athecate internode with one or two median
nematothecae. Each thecate internode with one median inferior nematotheca
not quite reaching base of hydrotheca, one pair pedicellate laterals not quite
reaching margin, and one or a pair of minute median superior behind adcauline
wall of hydrotheca. No internodal septa.

Hydrotheca cup-shaped, wider than deep, adnate for about half height,
then free, with no intrathecal septa, with more or less parallel adcauline and
abcauline walls, 0,12-0,2 mm in abcauline height and 0,2 mm in marginal
diameter. Margin forming an angle of about 40° with hydrocladium.

Nematothecae two-chambered and movable, except the superiors, which
are minute, one-chambered and immovable, all with the adcauline wall cut
away to a certain extent.

Gonothecae borne on hydrocladia immediately below the hydrothecae,
dimorphic, pedicellate, bearing two or three large nematothecae, female(?)
flattened pear-shaped, large and on first thecate internode, male smaller and
round in section and on thecate internodes other than the first, both with
terminal aperture.

406 ANNALS OF THE SOUTH AFRICAN MUSEUM

C

Fig. 127.

Plumularia wasini. A, fertile stem; B, anterior view of stem showing male (small) and female
(large) gonothecae and origins of hydrocladia; C, hydrocladium.
Scale: A in cm, the rest in mm/10.

Variation. The most marked variation is in the length of the stem internodes
and in the structures which they bear. Although the hydrocladia are spaced
fairly evenly, the number borne on a stem internode varies from one to five
and the length of the internode varies accordingly, as does the number of nema-
tothecae (2-14). The latter are arranged in two fairly distinct longitudinal rows,
which may lie along the lateral surfaces or on the anterior surface. Here and
there nematothecae may be displaced from their rows.

The straight nodes on the hydrocladia are sometimes indistinct. One
instance of a branching hydrocladium has been seen.

Distribution outside South Africa. Tropical East Africa (type locality).

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 407

Distribution in South Africa. Natal to Mogambique (Santa Carolina), 18-100 m.
B29 (5), 29/351 (8), 29/32 (Ss), 28/32 (d); 217/35

Subfamily Aglaopheniinae

Diagnosis. Stem erect, branched or unbranched, fascicled or unfascicled, bearing
hydrocladia. No cauline hydrothecae. Hydrocladia arising from a single axial
tube in fascicled stems, homomerous, bearing close-set hydrothecae generally
on the anterior surface. Hydrothecae generally completely adnate and with
toothed margin. Paired lateral nematothecae always present and fused to
hydrothecae; generally (always, in South African species) at least three nema-
tothecae to each hydrotheca, one pair laterals and one median inferior which
may or may not be fused to hydrotheca. All nematothecae one-chambered and
immovable, though often with more than one opening, of which one may
communicate with cavity of hydrotheca. Gonothecae unprotected, or protected
by simple nematophore-bearing phylactocarps, or aggregated into a corbula.

KEY TO GENERA

[Genera not represented in South Africa are bracketed]

1. Gonothecae unprotected .. a ae a Gymnangium p. 432
— Gonothecae protected by ACCESSOry. Secneies Er 2
2. Gonothecae aggregated in a corbula, which Se aera a ia gears a ee
secondary ribs a 3
— No true corbula Bas gonothecae solitary and protected by unbranched phylacto-
Canps) =. as = ao 0 : 28,24
3. Each corbula rib re a Perothccs at its ee ee ey S ire p. 453
— Corbula ribs without hydrothecae at their bases .. ie Se Aglaophenia p. 407
4. Phylactocarp formed from a modified hydrocladium .. Lytocarpus p. 446
— Phylactocarp an appendage of a hydrocladium, which is itself unmodified “s : 5
5. Hydrocladia arranged in a spiral around stem .. ee: ae Se baneabea
- Hydrocladia pinnately arranged in two longitudinal rows ae Cladocarpus p. 416

Genus Aglaophenia Lamouroux, 1812

Diagnosis. Stem branched or unbranched, bearing alternate hydrocladia.
Hydrocladia unbranched. Hydrotheca sac-shaped to deep, usually with toothed
margin and an adcauline intrathecal septum. Median inferior nematotheca at
least partly adnate to hydrotheca, of variable length. Gonothecae in corbula
formed by modified hydrocladium bearing secondary ribs. Ribs bearing nemato-
thecae but no hydrothecae.

Type species: Sertularia pluma Linnaeus, 1758.

KEY TO SPECIES

(Doubtful species not included; for these see p. 415)

1. Stem strongly fascicled. Median inferior nematotheca adnate to hydrotheca for
entire length .. A. cupressina

— Stem unfascicled. Median inferior nematotheca not nduate fo hydrotheca for entire
length .. 2

408 ANNALS OF THE SOUTH AFRICAN MUSEUM

2. Hydrotheca with a solid perisarcal keel on abcauline surface projecting as an ‘outer
point’ beyond the abcauline marginal tooth fe .. A, latecarinata
— Hydrotheca with no perisarcal keel, median abcauline tooth simple ae .. A. pluma

Aglaophenia cupressina Lamouroux, 1816
Fig. 128A—C

Aglaophenia Cupressina Lamouroux, 1816: 169. Billard, 1913: 107, fig. 96, pl. 6. Bale, 1915:

319, pl. 47 (figs 6-8). Millard & Bouillon, 1974: 36, fig. 8E-F.

Aglaophenia macgillivrayi: Allman, 1883: 34, pl. 10, pl. 20 (figs 4-6).

Diagnosis. Stem robust, thickly fascicled, branching and rebranching irregularly
up to the fourth order, reaching a maximum height of 230 mm, bearing alternate
hydrocladia from an axial tube (though hydrocladia absent in basal parts).
Final branches (pinnae) arising from axial tube of stem at regular intervals in
subopposite pairs, unfascicled or with one or two supplementary tubes derived
from the accessory tubes of stem, bearing alternate hydrocladia. No hinge-
joints. Axial tube of pinna segmented, each internode bearing one hydrocladial
apophysis, with two nematothecae and a mamelon on the apophysis.

Hydrocladia closely set, short (1-2 mm), bearing hydrothecae on anterior
surface, divided into squarish thecate internodes by transverse nodes, proximal
internodes larger than distal ones. Each internode with two powerful internodal
septa converging towards one another anteriorly. Anterior wall of internode
with thick perisarc.

Hydrotheca deep, obconical, completely adnate, 0,3 mm in height and
0,14-0,15 mm in marginal diameter, with an adcauline intrathecal septum
arising above hydropore and running obliquely upwards across about two-
thirds of cavity. A faint longitudinal line (visible only in macerated specimens)
down centre of lateral surface. Margin smooth or sinuated, often with two or
three pairs low rounded lobes.

Median inferior nematotheca completely adnate to hydrotheca, with a
thick sigmoid intranematothecal septum arising from abcauline wall and pass-
ing obliquely downwards, with one large distal aperture sometimes bordered
by two rounded lateral lobes; with no communication with hydrotheca. Lateral
nematothecae tubular, curved, overreaching thecal margin, with one distal
aperture.

Corbulae borne on pinnae, replacing hydrocladia, with pedicel of on
thecate segment and about six pairs of alternate ribs. Each rib bearing nemato-
thecae along outer edge, the first two or three on a raised lobe, and with inner
edge fused to rib behind (corbula closed). The first rib sometimes with a free
branch on one side. Corbula reaching 2,8 mm in length and 1,1 mm in diameter.

Colour olive green to greenish black. ‘Dreaded for its stinging powers’
(Vervoort 1941).

Distribution outside South Africa. Tropical Indo-Pacific, from Zanzibar in East
Africa to the Great Barrier Reef, extending northwards in the Pacific to the Sea
of Okhotsk. Type locality: East Indies.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 409

Distribution in South Africa. Santa Carolina in Mogambique, only. 21/35

Aglaophenia latecarinata Allman, 1877

Fig. 128D-F
Aglaophenia late-carinata Allman, 1877: 56. Allman, 1886: 151, pl. 23 (figs 5-6). Millard,
1958: 213, fig. 14. .

Aglaophenia latecarinata var. madagascariensis Billard, 1907a: 387, pl. 26 (figs 18-19).
Aglaophenia latecarinata: Vervoort, 1968: 72, fig. 33.

Diagnosis. Stem unfascicled, unbranched, reaching a maximum height of 28 mm,
with two hinge-joints separating a short basal part from a distal part bearing
alternate hydrocladia. Basal part bearing a row of large median nematothecae
only. Distal part generally unsegmented except in terminal region where oblique
nodes separate short internodes bearing one hydrocladium each. Two or three
nematothecae to each hydrocladial apophysis, one axillary anterior, one
inferior anterior, and sometimes one axillary posterior. Mamelon present on
anterior surface of apophysis. The two rows of hydrocladia not in one plane but
shifted onto the anterior surface.

Hydrocladium bearing hydrothecae on anterior surface, consisting of
thecate internodes separated by transverse nodes. Internodes with two distinct
septa.

Hydrotheca sac-shaped, with a distinct adcauline intrathecal septum at
about one-third of height, 0,2—0,4 mm in height and 0,12-0,16 mm in marginal
diameter. Margin forming an angle of about 50° with internode, with nine
marginal teeth, one median abcauline and four pairs laterals. Median abcauline
tooth double, with an inner point, and a solid outer point continuous with a
keel of perisarc down abcauline wall of hydrotheca.

Median inferior nematotheca adnate to abcauline thecal wall up to level of
intrathecal septum, then free; not reaching thecal margin; with three apertures,
one terminal, one on upper surface at base of free part (these two sometimes
confluent), and one into hydrotheca; generally with a perisarcal thickening on
abcauline surface. Lateral nematotheca sac-shaped, curved, not reaching thecal
margin, with one distal aperture extending onto medial surface. Cauline
nematotheca sac-shaped, with one wide, or two small, terminal aperture(s).

Corbula replacing hydrocladium; up to 3 mm in length; with a pedicel of
one hydrotheca-bearing segment; bearing up to 10 pairs of alternate ribs. Each
rib bearing a series of nematothecae along outer edge, the first on a spinous pro-
cess, with inner edge fused to rib behind but leaving a series of openings into the
interior.

Variation. The marginal teeth of the hydrotheca are variable. The four lateral
teeth tend to be in two groups, with a more pronounced bay separating the
first and second from the third and fourth. Generally this central bay is shallow
and the two middle teeth are broad and rounded and the two outer ones narrow
and pointed. A form also occurs with a very deep central bay, taller middle
teeth and a reduced fourth (the most abcauline) tooth, which looks more like a

410 ANNALS OF THE SOUTH AFRICAN MUSEUM

oy
Ca re we ee
ME om

YZ

\
me
Zo

P,
ria
iy

PAs

y

te /p
a

Cl

7

BAN ANS es
yi SSE
>>
LZ

ae

a

We

UE IO UM
i Li

SOB Gi,
Jp
QRS ey
’

ee

Chora Temingyin

Jo alt (iri Ke ,
L&
) Rar me peyy "
CBT ss se (2
F

Fig. 128.

Aglaophenia cupressina. A, stem; B, hydrocladium; C, corbula.
Aglaophenia latecarinata. D, stems; E, hydrocladium; F, female corbula (apertures between
ribs shaded).
Scale: A and D in cm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 411

subsidiary point on the third (var. madagascariensis Billard). This form lacks
the posterior axillary cauline nematotheca. The outer point of the median
abcauline tooth is normally longer than the inner, but in the first hydrocladial
internode it tends to be shorter than the inner and the median inferior
nematotheca reduced, not reaching to the level of the intrathecal septum.

The thickening on the abcauline wall of the median inferior nematotheca
is also variable, sometimes resembling a transverse septum and sometimes not
developed at all.

Distribution outside South Africa. Atlantic Ocean from American to African
coast and from the Azores in the north to Brazil and Angola in the south,
very common in the tropical west Atlantic on Sargasso weed; Indian Ocean
from Cargados and Madagascar. Type locality: Gulf of Mexico on floating
weed.

Distribution in South. Africa. Eastern Cape, Natal and Mocgambique, in 6-55 m.
31/29 (s), 30/30 (s), 29/31 (s), 28/32 (s), 24/34 (s)

Aglaophenia pluma (Linnaeus, 1758)

Sertularia pluma Linnaeus, 1758: 811.

Aglaophenia pluma: Millard, 1957: 235, fig. 15.

Diagnosis. Stem unfascicled, branched or unbranched, with two (or occasionally
three) hinge-joints separating a short basal part from a distal part bearing
alternate hydrocladia. Basal part without hydrocladia or nematothecae, divided
into irregular internodes by transverse nodes. Distal part divided into inter-
nodes by slightly oblique nodes, each internode bearing one hydrocladial
apophysis and three nematothecae, one axillary anterior, one axillary posterior
and one anterior inferior which may be seated on the base of the apophysis.
Mamelon present on anterior surface of apophysis. The two rows of hydrocladia
not in one plane but shifted on to anterior surface.

Hydrocladium bearing hydrothecae on anterior surface, consisting of
thecate internodes separated by transverse or slightly oblique nodes. Internodes
with two internodal septa.

Hydrotheca sac-shaped, expanding to margin, with an adcauline intrathecal
septum at about one-third of the height, 0,17—0,4 mm in height and 0,12—0,3 mm
in marginal diameter. Margin forming an angle of 60-70° with internode, with
nine teeth, one median abcauline and four pairs laterals of which the second
from the abcauline side may be double.

Median inferior nematotheca adnate to abcauline tnecal wall for over
two thirds of latter, then free; reaching to thecal margin or just below; with
three apertures, one terminal, one on upper surface at base of free part (these
two often confluent) and one into hydrotheca. Lateral nematotheca sac-shaped,
reaching to thecal margin or just below, with one distal aperture extending onto
median surface. Cauline nematotheca gutter-shaped.

Corbula replacing hydrocladium, consisting of a pedicel of one hydrotheca-

412 ANNALS OF THE SOUTH AFRICAN MUSEUM

bearing segment, and then 4~9 alternate paired ribs, male and female on separate
colonies. Female corbula closed; ribs, except for the first, bearing nematothecae
along outer edge and fused to rib behind by inner edge; first rib free, giving
off a branch on one side lying parallel to axis of corbula; both first rib and its
branch bearing nematothecae on both edges. Male corbula partly or completely
open; ribs, except for the first, fused in basal part and bearing nematothecae
along outer edge, free in distal part and bearing nematothecae along both edges;
first rib free and bearing nematothecae along both edges, normally unbranched.
Corbula 2-3 mm in length.

Variation. One large median nematotheca occurs on the stem internode between
the hinge-joints. The first internode beyond the hinge-joints may be longer than
usual and give rise to two hydrocladia.

On the hydrocladial internodes the length of the median inferior
nematotheca varies, though it tends to be longer in subspecies parvula.

In the corbula the branch of the first rib is occasionally absent in the female,
and occasionally present, though small and stunted, in the male.

KEY TO SUBSPECIES

1. Stem long (usually over 100 mm) and straggling, with repeated dichotomous

division .. A. p. dichotoma
Stem short (usually nade 100 sae) nad unbranched or sone branched .. 7 gee

2. Hydrotheca with all marginal teeth simple and undivided : A, p. pluma
— Hydrotheca with second paired tooth from abcauline side normally double A. p. parvula

Aglaophenia pluma pluma (Linnaeus, 1758)

Fig. 129D

Aglaophenia pluma: Hincks, 1868: 286, pl. 63 (fig. 1). Vervoort, 19465: 335, fig. 8. Rees &
Thursfield, 1965: 190.
Aglaophenia chalarocarpa Allman, 1886: 150, pl. 21 (figs 1-4). Warren, 1908: 330.
Aglaophenia pluma forma typica Bedot, 1919: 276.
Aglaophenia pluma var. typica: Millard, 1957: 238, fig. 15A.
Diagnosis. Stem short, reaching 97 mm, but usually much less, normally
unbranched.
Marginal teeth of hydrotheca of approximately equal length and not
divided. Median inferior nematotheca not reaching thecal margin.

Colour: Stem dark brown, hydrocladia light brown.

Variation. The stems may occasionally branch once or twice dichotomously,
thus tending towards subsp. dichotoma. Branches may also occur which replace
hydrocladia; these resemble stems in their structure, with a basal part without
hydrocladia separated from a distal hydrocladia-bearing part by two hinge-joints.
Rarely in the hydrotheca the second paired tooth from the abcauline side
may have a small subsidiary point, thus tending towards subsp. parvula.

Distribution. Cosmopolitan. Type locality: U.K.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 413

Distribution in South Africa. South West Africa to Natal, not common, littoral
to 49 m. 22/14 (1), 26/15 (s), 34/18 (s), 234/22, 34/23, 30/30 (1), 39/31 (I, s),
27/32 (1)

Aglaophenia pluma dichotoma (M. Sars, 1857)
Fig. 129A, C, E

Plumularia pluma var. dichotoma M. Sars, 1857: 164.
Aglaophenia dichotoma: Ritchie, 19076: 539, pl. 3 (fig. 2). Stechow, 1925a: 516.
Aglaophenia heterodonta: Ritchie, 1909 (pp): 96.
Aglaophenia pluma var. dichotoma: Millard, 1957: 239, fig. 1SB-C. Rees & Thursfield, 1965:
191.
Diagnosis. Stem long and straggling, reaching 300 mm, branching profusely in
a dichotomous manner. The two limbs of a dichotomy of equal diameter and
arising from two apophyses on a single broad stem internode, all internodes
bearing hydrocladia.
Marginal teeth of hydrotheca sharply pointed and triangular, normally
undivided. Median inferior nematotheca not, or only just reaching thecal margin.
Colour: Stem medium brown, hydrocladia cream.

Variation. In the hydrotheca the second paired tooth from the abcauline side
may have a small subsidiary point as in subsp. parvula.

Distribution outside South Africa. Atlantic, from Europe to West Africa. Type
locality: Mediterranean.

Distribution in South Africa. Northern South West Africa and Lambert’s Bay
on west coast to East London on south coast, littoral to 119 m, but most
common between 10 and 70 m, especially abundant in dredgings from False
Bay and the Agulhas Bank. 20/13 (1), 32/18 (s), 33/18 (s), 34/18 (s, 1), 34/20 (s),
34/21 (s), 34/22 (s), 35/22 (d), 34/23 (1, s, d), 33/25 (s), 34/25 (s, d), 33/26 (s),
33/27 (Ss)

Aglaophenia pluma parvula Bale, 1882

Fig. 129B, F

?Aglaophenia conferta Kirchenpauer, 1872: 32, pl. 1 (fig. 4), pl. 2 (fig. 4), pl. 3 (fig. 4).

Aglaophenia parvula Bale, 1882: 23, pl. 14 (fig. 3). Bale, 1884: 165, pl. 14 (fig. 3), pl. 17 (fig.
10). Stechow, 1925a: 516.

Aglaophenia heterodonta Jaderholm, 1903: 296, pl. 13 (figs 10-12), pl. 14 (fig. 1). Ritchie, 1909
(pp): 96.

Aglaophenia pluma var. parvula: Millard, 1957: 239, fig. 15D-F. Millard, 1958: 215. Vervoort,
1959: 307, figs 52a, 53b. Leloup, 1971: 4, fig. 2A.

Diagnosis. Stems short, growing in thick clumps on rocks, reaching 116 mm but
usually much less, unbranched or sparsely branched.

Hydrotheca with second paired tooth from abcauline side normally double,
the two points either equal in size, or with the more adcauline one larger than
the other. Median inferior nematotheca usually reaching to thecal margin or at
least to bays between the teeth.

Colour: stem dark brown, hydrocladia light brown.

414 ANNALS OF THE SOUTH AFRICAN MUSEUM

Z

K

IX
IN;

000,
a

SSD... OTS
M0

ile

EAS
oe
O77:

4
4
4
4h
4

4%,
4
,

Fig. 129.

Aglaophenia pluma. A, fertile stem of subsp. dichotoma; B, fertile colony of subsp. parvula;
C, female corbula, subsp. dichotoma; D, E and F, hydrothecae from subsp. pluma,

dichotoma and parvula respectively.

Scale: A and B in cm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 415

Variation. The stem occasionally gives off one or two short branches, either
dichotomously as in subsp. dichotoma, or replacing hydrocladia.

Rarely the subsidiary point of the second paired marginal tooth of the
hydrotheca is very small or obsolete. This usually occurs towards the distal ends
of hydrocladia, while the division is well marked towards the proximal ends.

Distribution outside South Africa. Australia, southern Indian Ocean (St. Paul),
west coast of Africa. Type locality: Queenscliff, Australia.

Distribution in South Africa. Very common in littoral region and shallow water
all round the coast from South West Africa to Natal, to a depth of 84 m.
Characteristic of wave-washed areas. 26/15 (1), 29/16 (1), 32/18 (I, s), 33/17 (s),
Ba PS (is), 34/18) s); 33/25 s), 33/270), 32/28 (s), 31/29, s), 31/300),
30/30 (1), 29/31 (1)

Doubtful species
Aglaophenia alopecura Kirchenpauer, 1872

Aglaophenia alopecura Kirchenpauer, 1872: 33, pl. 3 (fig. 10). Marktanner-Turneretscher,
1890: 263, pl. 6 (fig. 20), pl. 7 (fig. 21). Stechow, 1912: 371.

Remarks. Kirchenpauer’s description of this species is not sufficient for recognition,
and unfortunately most of Kirchenpauer’s collection no longer exists. Marktanner-
Turneretscher’s description of material from Algoa Bay would apply equally well to
Thecocarpus flexuosus umbellatus, except that no mention is made of a hydrotheca at
the base of each corbula rib, a feature which can easily be missed. Stechow’s material
(probably South African!) was fragmentary and does not help. It is recommended that
the species be dropped from the records.

Aglaophenia attenuata Allman, 1883
Aglaophenia attenuata Allman, 1883: 37, pl. 11 (figs 7-9).

Remarks. The shape of the hydrotheca in this species resembles that of Thecocarpus
brevirostris and that of Aglaophenia tubulifera. Allman says that’the ‘mesial’ (median
abcauline) tooth of the hydrotheca is bifid, but it is not clear whether he means that
there is an inner and an outer point (as in Aglaophenia latecarinata), or whether the
two points lie side by side.

Although Allman, in his diagrams, does not show hydrothecae at the bases of
the corbula ribs, it is possible that he may have missed this feature.

Billard (1908) was unable to find Allman’s type material in the British Museum.
The position and nature of the species must thus remain doubtful.

Aglaophenia holubi Leloup, 1934
Aglaophenia (?) holubi Leloup, 1934: 4, figs 4-6.

Remarks. This species was created for some admittedly badly preserved material,
which can probably be included in A. pluma. The hydrotheca is missing the most
adcauline pair of the marginal teeth, which is often very poorly developed in A. pluma.
The corbula figured by Leloup would agree with a young corbula of A. pluma in which
the ends of the ribs had been damaged and the gonophores broken off.

416 ANNALS OF THE SOUTH AFRICAN MUSEUM

Aglaophenia pusilla Kirchenpauer, 1872

Aglaophenia pusilla Kirchenpauer, 1872: 32, pl. 1 (fig. 3), pl. 3 (fig. 3). Bedot, 1921: 335.
Stechow, 1923c: 256.

Remarks. The presence of cauline hydrothecae and the toothed margin of the hydro-
theca in this species suggest the genus Gattya (Halopterinae). Yet the presence of seven
marginal teeth, of which the median abcauline is greatly elongated, is characteristic
of no known South African species of the genus. Since Kirchenpauer’s type material
is no longer available the presence of the species in the country must await confirma-
tion and its systematic position remain doubtful.

Aglaophenia tubulifera (Hincks, 1861)

Plumularia cristata: Busk, 1851: 118.

Plumularia tubulifera Hincks, 1861: 256, pl. 7 (figs 1-2).

Aglaophenia tubulifera: Hincks, 1868: 288, pl. 63 (fig. 2). Billard, 1906: 231, figs 20-21. Millard
1961: 206.

Aglaophenia filicula Allman, 1883: 36, pl. 11 (figs 1-6).

Remarks. The only South African record of this species is that of Busk (1851), a
record which was quoted by Hincks (1868) and probably also by Kirchenpauer (1872).
Though Busk’s material appears to belong to this species, the distinction between
A. tubulifera and A. pluma is not clear since both species are very variable, and it
is possible that all South African material should be included in A. pluma.

Genus Cladocarpus Allman, 1874

Syn. Dinotheca Stechow, 1911.

Cladocarpella Bale, 1915.

Aglaophenopsis Fewkes, 1881.

Nematocarpus Broch, 1918.
Diagnosis. Stem branched or unbranched, bearing alternate hydrocladia.
Hydrocladia usually unbranched. Hydrotheca deep, often bent into an S-shape,
with or without intrathecal septa, usually with a median abcauline tooth, with
or without lateral teeth. Nematothecae usually with more than one aperture;
median inferior nematotheca short, usually below hydrotheca, never reaching
thecal margin. Gonothecae protected by phylactocarps which arise as append-
ages of the hydrocladia. Phylactocarps branched or unbranched, usually without
hydrothecae, bearing one or two rows of nematothecae.

Type species: Cladocarpus formosus Allman, 1874.

KEY TO SPECIES*
1. Abcauline wall of hydrotheca not eet an curved and axis of Sa more or

less straight .. 2
— Abcauline wall of hydrotheca markedly convex in 1 lower part and axis ‘of hydrotheca

twisted into an S-shape which may be very pronounced 8 , is >
2. Hydrothecal margin with three teeth, one median abcauline and two Hisel C. lignosus
— Hydrothecal margin with one rete abcauline tooth only 6 .
3. Hydrotheca with two intrathecal septa, one adcauline and one abcauline C. leloupi
— Hydrotheca with no intrathecal septa .. ae ae
4. Depth of hydrotheca 2-3 times marginal Hanes Phylactocarps with short

nematothecae (under 0,1 mm) a aes ps ae a : C. distomus

* See also Addendum, p. 483.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 417

— Depth of hydrotheca 33-5 times aa diameter. eee with long

nematothecae (over 0,4 mm) ie Js = P oe .- C. tenuis
5. Hydrothecal margin untoothed .. ay a C. millardae
— Hydrothecal margin with one median abcauline tooth . a oe me 1 at |
6. Hydrotheca without intrathecal septum .. one ae i es die ate
— Hydrotheca with one intrathecal septum Le $ ts a. Mee
7. Three of the internodal septa carried outwards (to Abodulicie side) oF curvature of

hydrotheca and not reaching opposite (adcauline) side of internode. No horn on

convexity of hydrotheca .. C. inflatus
— All but one or two of the internodal septa ‘carried outwards by curvature of

hydrotheca. Convexity of ns Sede el horn which reaches above level

of thecal margin... 3 re a .. C. dofleini

8. Intrathecal septum Ab cauline 3 50 ee nt ss ag C. valdiviae

— Intrathecal septum adcauline a M3 ov ret ta eo,
9. Basal two-thirds of abcauline wall convex, maximum concavity at aboers eiaet

C. sinuosus

— Basal third of abcauline wall convex, maximum concavity below half height lO
10. Convex part of abcauline wall capped by a horn, adcauline part of margin cut

away .. Bhs ae ae C. unicornus

— Abcauline wall not thickened, margin not cut away ee oe oe C. crepidatus

Cladocarpus crepidatus sp. nov.*
Fig. 130A—C
Holotype. SAM-HS537: Agulhas Bank off Still Bay, 35°22’S/22°31’E, 200 m.

Description. A single stem without rootstock and in two parts, altogether 46 mm
long. The stem bears alternate hydrocladia in the distal two-thirds, although
most of these have been broken off. The longest bear seven hydrothecae and
are 6 mm in length.

Stem fascicled, consisting of a principal hydrocladia-bearing tube and a
number of peripheral tubes applied to its posterior surface. Only the last half
millimetre is unfascicled. Principal tube exposed on anterior surface, without
visible nodes; with many septa in proximal region (4-6 between consecutive
apophyses) which gradually disappear in the distal region. Apophyses short,
directed alternately to right and left. Two cauline nematothecae between con-
secutive apophyses, of which one is seated in the axil and displaced slightly to
that side. Cauline nematotheca sac-shaped, with two terminal apertures.

Hydrocladium bearing up to seven thecate internodes, which are slightly
sigmoidally curved, the first curvature being the stronger; nodes slightly oblique.
Each internode with 9-13 septa, one or two below the hydrotheca, 7-11 behind
it and usually one above it.

Hydrotheca with double curvature: abcauline wall convex basally and
with maximum convexity at about } height; concave above this and with
maximum concavity at about 3 height; then widening evenly to margin; not
thickened in any region. Adcauline wall smoothly convex. Margin with a single
inturned abcauline tooth and sinuous or crenulated lateral edges. A short

* crepidatus (L): wearing sandals or slippers.

418 ANNALS OF THE SOUTH AFRICAN MUSEUM

adcauline intrathecal septum present immediately above hydropore, curved
upwards and projecting into bulging basal part.

Median inferior nematotheca short and free from hydrotheca, with two
apertures, one terminal and one on upper surface. Lateral nematotheca tubular
and overtopping thecal margin; with three apertures, either one terminal and
two mesial or two terminal and one mesial.

Phylactocarps borne on hydrocladia below the first hydrotheca and to one
side, reaching 1,4 mm in length and bearing five pairs of long nematothecae
when mature. Nematothecae about 0,8 mm in length, with two apertures on a
raised process close to the origin, one or two apertures along the length and one
terminal. Both the main axis of the phylactocarp and the nematothecae with
many septa. Each phylactocarp bearing 2-4 gonothecae between the origins of
members of the first to fourth pairs of nematothecae. Gonothecae female,
broad-oval in front view, slipper-shaped in side view with a broad subterminal -
aperture, each containing one planula larva.

Measurements (mm)

Hydrocladium, internode length . as ba a .. 0,80-0,98

Hydrotheca, depth including median tooth vA ty : .. 0,55-0,70
diameter at margin .. x Re ae uh oe .. 0,22-0,25

Gonotheca, length .. = a ee a ae reaching 0,60
maximum diameter .. a a eh ae reaching 0,33

Remarks. The convexity of the basal part of the abcauline thecal wall is typical
of a number of Cladocarpus species with a sigmoidally curved hydrotheca. In
degree of curvature it lies between C. sinuosus Vervoort, 1966 and C. unicornus
sp. NOV.

It differs from C. sinuosus in the larger hydrothecae in which the basal part
of the abcauline wall is more protuberant and the greatest concavity is at a
lower level. The intrathecal septum is also at a lower level.

Distribution. Endemic to South Africa.

Distribution in South Africa. The only record is the holotype recorded above.
35/22 (d)

Cladocarpus distomus Clarke, 1907

Fig. 130D-F

Cladocarpus distomus Clarke, 1907: 17, pl. 14. Stechow, 1925a: 506, fig. 47. Millard, 1967:
188, fig. 6. Millard, 1968: 280. Vervoort, 19665: 150, figs 48-50. Vervoort, 1972: 212,
fig. 73a.

Cladocarpus sibogae: Billard, 1913: 71, figs 57-58, pl. 4 (fig. 39). Billard, 1918: 26, fig. 5.

Cladocarpella multiseptata Bale, 1915: 304: pl. 47 (figs 1-5).

Cladocarpus plumularioides Jarvis, 1922: 352, fig. 3. Vervoort, 19665: 152, fig. 51.

?Cladocarpus bathyzonatus Ritchie, 1911: 861, pl. 89 (figs 2, 6-11). Vervoort, 1966b: 153,
fig. 53.

?Cladocarpus multiapertus Billard, 1913: 73, fig. 59.

?Cladocarpus alatus Jarvis, 1922: 351, fig. 2, pl. 26 (fig. 25). Vervoort, 1966b: 152, fig. 52.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 419

Fig. 130.

Cladocarpus crepidatus sp. nov., from holotype. A, gonotheca and nematotheca from
phylactocarp; B, part of stem in anterior view showing two phylactocarps and their
gonothecae; C, hydrocladium.

Cladocarpus distomus. D, stem; E, hydrocladium; F, hydrocladium with phylactocarps
bearing gonothecae.

Cladocarpus dofleini, redrawn from Vervoort (19665). G, hydrotheca.

Scale: D in cm, the rest in mm/10.

420 ANNALS OF THE SOUTH AFRICAN MUSEUM

Diagnosis. Hydrorhiza forming a branching root-stock for penetration of mud.
Stem weakly fascicled at base, unbranched, reaching about 100 mm in height,
bearing alternate hydrocladia from an axial tube. Axial tube with or without
irregular, oblique hinge-joints; with or without indistinct transverse nodes;
without septa; bearing a row of nematothecae on anterior surface, of which
one is seated in the axil of each hydrocladial apophysis.

Hydrocladium bearing hydrothecae on anterior surface, consisting of
thecate internodes separated by slightly oblique nodes. Internodes straight or
curved, with or without septa; with three or four nematothecae, one median
inferior, one pair laterals and sometimes one median superior.

Hydrotheca deep; not sigmoidally curved; abcauline wall smoothly con-
vex or with a slight concavity in distal half; widening to margin; without
intrathecal septum; 0,5-1,0 mm in abcauline height including median tooth,
and 0,2-0,3 mm in marginal diameter; with a delicate adcauline shelf of peri-
sarc overarching the hydropore. Margin perpendicular to hydrocladium, with
one median abcauline tooth.

Median inferior nematotheca seated below hydrotheca and not reaching its
base, with at least two apertures, one terminal in the form of a narrow trans-
verse slit which may be subdivided, and one circular on upper surface near base.
Lateral nematotheca tubular or spreading round lateral wall of hydrotheca
even as far as median tooth; with one to many apertures, the first usually raised
slightly above the level of the rest and overtopping thecal margin. Median
superior nematotheca, when present, seated above hydrotheca, similar to median
inferior. Cauline nematotheca similar to median inferior. Phylactocarps borne
on hydrocladia, several to each, unbranched, with four or five pairs of short
nematothecae (less than 0,1 mm), bearing one to three gonothecae on basal
region. Gonotheca elongate, with terminal, transversely widened aperture.
Nematothecae similar to median inferior.

Variation. This is a very variable species, thus accounting for the many synonyms
under which it is known. Variation occurs in the following features:

(i) Branching. The stem is normally unbranched, but rare examples of branch-
ing have been reported from outside South Africa, and colonies have been
observed where some hydrocladia continue as stems and give off secondary
hydrocladia.

Gi) Stem segmentation. Some stems are completely unsegmented, others have
oblique hinge-joints and/or indistinct transverse nodes. Hinge-joints are
quite irregular in position and may occur in groups of three or four close
together. Transverse nodes generally occur in the distal part of the stem and
are more regular, one above each hydrocladium.

(iii) Number of internodal septa in hydrocladia. This varies from none at all to
as many as 19 to an internode, in which case about 11 are behind the adcauline
wall of the hydrotheca.

(iv) Cauline nematothecae. A variable number occurs between two consecutive
hydrocladia, 2-14 have been reported in the literature and 2-12 observed in
South Africa.

(v) Structure of nematothecae. The typical slit-like terminal aperture lends itself

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 421

to modification, for by widening of the nematotheca and approximation of
the margins the aperture may be subdivided. Thus, the median nematotheca
may have one to four terminal apertures, and the lateral nematotheca may
extend round the lateral margin of the hydrotheca as far as the abcauline
median tooth and have many terminal apertures.

(vi) Median superior nematothecae, which may be present or absent, and if
present may vary in number from one to three. The number appears to be
related to the length of the internode which also is variable. There is never
more than one inferior median nematotheca, but its distance from the base
of the hydrotheca varies.

Distribution outside South Africa. Eastern Pacific, 6°51'N/81°42,5’W, 1012 m
(type locality), East Indies, Queensland, East Africa.

Distribution in South Africa. Off Cape Town, Natal and Mocambique, in 292
to 2 200 m. 34/17 (a), 30/31 (d, vd), 30/32 (a), 29/31 (d, vd), 24/36 (a), 23/37 (a)

Cladocarpus dofleini (Stechow, 1911)

Fig. 130G

Dinotheca dofleini Stechow, 1911: 194, fig. 1. Stechow, 1925a: 508, figs 49-52. Vervoort, 1966b:

162, figs 63-64.

Diagnosis. Hydrorhiza a tuft of branching tubes for penetration of mud. Stem
fascicled, unbranched, reaching a maximum height of 35 mm, bearing alternate
hydrocladia from an axial tube. Axial tube exposed on anterior surface, not
divided into internodes, without septa, bearing a row of nematothecae on
anterior surface, of which there are two to five between two consecutive
hydrocladia including one in the axil of hydrocladial apophysis.

Hydrocladium bearing hydrothecae on upper surface, consisting of slightly
curved and slender thecate internodes separated by oblique nodes. Each inter-
node bearing a hydrotheca in proximal half, with numerous septa of which all
except the first one or two and the last one or two are carried outwards by the
curvature of the hydrotheca and drawn away from the opposite side of the
internode. Each internode with three nematothecae, one median inferior and
one pair laterals.

Hydrotheca laterally compressed and with exaggerated double curvature;
abcauline wall grossly convex basally and bulging outwards and upwards above
thecal margin, this part capped by a pointed spine, concave above this and
widening to margin; adcauline wall deeply but smoothly curved; basal part of
internode carried outwards with the base of the hydrotheca. Hydrotheca with
no intrathecal septum; 0,5-0,6 mm from upper adcauline wall to spine and
0,2 mm in marginal diameter; margin forming an angle of about 45° with
hydrocladium, slightly sinuous, with one median abcauline tooth; hydropore
surrounded by a low collar and a ring of minute teeth. Hydranth with 12-14
tentacles.

Median inferior nematotheca free from hydrotheca and not reaching its
base, with two apertures, one terminal, and one on upper surface. Lateral

422 ANNALS OF THE SOUTH AFRICAN MUSEUM

nematotheca tubular, overtopping thecal margin, with one terminal aperture.
Cauline nematotheca spindle-shaped, with two apertures, one terminal and one
adcauline, containing an intranematothecal ridge.

Phylactocarps (not recorded from South Africa) borne as a pair on first
internode of hydrocladium, unbranched, unsegmented, without hydrothecae,
bearing a double row of nematothecae and one gonotheca between members of
the first pair of nematothecae. Gonotheca lens-shaped with a slit-like terminal
aperture (Stechow).

Variation. The measurements given above are from the South African material
reported by Vervoort, which consisted of young colonies, some of them
unfascicled. Stechow has described an older, fertile colony from East Africa,
with a fascicled stem almost 1 mm thick at the base and 130 mm high.

Stechow reports an S-shaped septum in some of the median inferior
nematothecae, a second aperture for the lateral nematothecae and only one
aperture for the cauline nematothecae. Presumably these are variable characters.

Stechow also reports that in the first hydrotheca of a phylactocarp-bearing
hydrocladium the curvature is less pronounced and the spine absent.

Distribution outside South Africa. Off East Africa. Type locality: probably
Agulhas Bank, South Africa, on a crab.

Distribution in South Africa. Off Durban in 425 to 495 m. 29/31 (d)

Cladocarpus inflatus Vervoort, 1966

Fig. 131H
Cladocarpus infiatus Vervoort, 1966b: 158, figs 58-59.

Diagnosis. Stem delicate, unfascicled, reaching a maximum height of 50 mm,
unbranched, bearing short hydrocladia more or less spirally arranged, not
divided into internodes but containing numerous straight septa, bearing a row
of nematothecae, of which one is seated in the axil of each hydrocladial
apophysis.

Hydrocladium consisting of three to five sigmoidally curved thecate inter-
nodes separated by slightly oblique nodes. Internodes containing numerous
septa, of which three are carried outwards by the curvature of the hydrotheca
and drawn away from the opposite side of the internode. Each internode with
three nematothecae, one median inferior and one pair laterals.

Hydrotheca with double curvature; abcauline wall very strongly convex
basally and with maximum convexity below + height, strongly concave above
this with maximum concavity at about 4 height, then widening evenly to margin,
not thickened; adcauline wall strongly and evenly curved; with no intrathecal
septum; 0,4 mm in height and 0,2 mm in marginal diameter; margin with one
inturned median abcauline tooth and sinuous or crenulated lateral edges.

Median inferior nematotheca free from hydrotheca and well below its base,
with two apertures, one terminal and one on upper surface near base. Lateral

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 423

nematotheca tubular, overtopping thecal margin, with three apertures, one
terminal, one lateral and one mesial. Cauline nematotheca with one terminal
aperture and containing an intranematothecal septum.

Gonotheca unknown.

Distribution. Endemic to South Africa.

Distribution in South Africa. Type locality and only record; off Durban in 495 m.
29/31 (d)

Cladocarpus leloupi Millard, 1962

Fig. 131A—-D

Cladocarpus flexilis Leloup, 1939: 14, fig. 10.
Cladocarpus leloupi Millard, 1962: 304.

Diagnosis. Hydrorhiza forming a branching root-stock for penetration of mud
or attachment to pebbles. Stem fascicled, flexible, reaching a maximum height of
237 mm, usually unbranched, bearing alternate hydrocladia. Axial tube without
internodal septa, divided by oblique nodes (which may be invisible in older
stems) into long internodes, each bearing one hydrocladial apophysis near distal
end and a row of nematothecae on anterior surface.

Hydrocladium bearing hydrothecae on upper surface, consisting of straight
thecate internodes separated by oblique nodes. Internodes containing five to
eight well-marked septa, of which the first is oblique and the remainder trans-
verse. Each internode with three nematothecae, one median inferior and two
lateral.

Hydrotheca vase-shaped, not sigmoidally curved, with axis parallel to
internode; with two intrathecal septa, one adcauline about half-way up and one
abcauline about quarter way up; 0,5-0,6 mm in abcauline height and 0,19-0,3
mm in marginal diameter; margin with one median abcauline tooth.

Median inferior nematotheca seated below hydrotheca and not reaching its
base, bifurcated, with two terminal apertures and one on upper surface near
base. Lateral nematotheca just overtopping thecal margin, usually trifurcated,
with three terminal apertures and one lateral. Cauline nematotheca usually
bifurcated, with two terminal apertures and one on upper surface.

One or two phylactocarps borne on first and sometimes on second inter-
node of hydrocladium, unbranched, segmented, with two nematothecae on
each segment, bearing gonothecae on first two or three segments. Gonotheca
flattened distally and curled over the subterminal transverse aperture.

Variation. The stem occasionally bears one or two long branches. The number
of nematothecae on the cauline internodes varies from three to six. The last
one is always seated in the axil of the hydrocladial apophysis.

The intrathecal septa, so characteristic of the species, tend to disappear
towards the distal ends of young hydrocladia.

The number of terminal apertures in the lateral and cauline nematothecae
is variable (1-4 in the former and 1-3 in the latter).

424 ANNALS OF THE SOUTH AFRICAN MUSEUM

ign isle

Cladocarpus leloupi. A, stem; B, hydrocladium; C, hydrocladium bearing two phylactocarps,
redrawn from Leloup (1939, as C. flexilis); D, anterior view of stem showing origins of
hydrocladia.

Cladocarpus millardae. E, stem; F, phylactocarp bearing male gonothecae; G, hydrocladium.

Cladocarpus inflatus, redrawn from Vervoort (19665). H, hydrotheca.

Scale: A and E in cm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 425

Distribution. Endemic to South Africa. Type locality: Cape Agulhas.

Distribution in South Africa. Agulhas Bank from Cape Agulhas to East London
in 80 to 120 m. 34/20, 35/21 (d), 34/22 (s), 34/23 (s), 34/25 (s, d), 34/26 (d),
33/27 (s) ;

Cladocarpus lignosus (Kirchenpauer, 1872)
Fig. 132A—D
Aglaophenia lignosa Kirchenpauer, 1872: 28, 37, pl. 1 (fig. 13); pl. 4 (fig. 13).
Cladocarpus lignosus: Stechow, 1919b: 135. Stechow, 1923c: 243, fig. J+. Stechow, 1925a:

505. Millard, 1962: 305, fig. 9.

Diagnosis. Hydrorhiza a hard and thickened mat. Stem thick, strongly fascicled,
very hard and woody, reaching a maximum height of 700 mm, branching
profusely and in one plane, bearing alternate hydrocladia from an axial tube in
the younger parts of the colony. Axial tube, where exposed, divided into regular
internodes by transverse nodes. Each internode without septa, bearing one
hydrocladial apophysis and two nematothecae, one on proximal region and the
other in the axil. Each peripheral tube with two rows of nematothecae.

Hydrocladium bearing hydrothecae on upper surface, consisting of one
short, athecate internode followed by longer straight thecate internodes. All
nodes oblique. Two internodal septa in first internode, three to five in thecate
internodes: three behind the hydrotheca and sometimes one proximal and one
distal. First internode with one median nematotheca, remainder with one
median inferior and one pair laterals.

Hydrotheca vase-shaped, not sigmoidally curved, with axis forming an
angle of 20-30° with hydrocladium, widening slightly to margin, with no
intrathecal septum, 0,2-0,3 mm in height and 0,15-0,19 mm in marginal
diameter. Margin with three teeth, one median abcauline and two lateral.

Median inferior nematotheca seated below hydrotheca and reaching to
just above its base, bifurcated, with two terminal apertures. Lateral nemato-
theca bifurcated, with one mesial and two terminal apertures, one of the latter
overtopping thecal margin and one approximately level with it. Cauline
nematotheca with two terminal openings.

Phylactocarps borne on first internode of hydrocladia, singly or in pairs,
curved, unbranched, indistinctly segmented, bearing one to four gonothecae.
Each ‘segment’ with two nematothecae. Gonotheca elongate, with distal
rectangular aperture.

Variation. The method of branching is very irregular, sometimes alternate,
sometimes opposite and sometimes unilateral, but the general result is usually
a fan-shaped colony.

Distribution. Endemic to South Africa. Type locality: given only as Cape of
Good Hope.

Distribution in South Africa. Fairly common from 10 to 120 m on the Agulhas

426 ANNALS OF THE SOUTH AFRICAN MUSEUM

Bank, reaching Cape Agulhas in the west and Natal in the east. 34/19 (s),
34/20 (s), 34/21 (s), 34/23 (s), 34/24 (d), 33/25 (S), 34/25 (s, d), 33/26 (s, d), 33/27
(s), 32/28 (s), 33/28 (s), 29/31 (s)

Cladocarpus millardae Vervoort, 1966
Fig. 131E-G
Cladocarpus millardae Vervoort, 1966b: 160, figs 60-62.

Diagnosis. Hydrorhiza a branching root-stock for penetration of mud. Stem
fascicled, unbranched, reaching a maximum height of 100 mm, bearing alternate
hydrocladia from the anterior surface of an axial tube. Axial tube exposed on
anterior surface, unsegmented, without septa, bearing a row of nematothecae,
two to four between two successive hydrocladial apophyses, of which one is
seated in the axil of the apophysis.

Hydrocladium bearing hydrothecae on anterior surface, consisting of
sigmoidally curved thecate internodes separated by oblique nodes. Internodes
with two to six incomplete septa, the two strongest behind basal part of
hydrotheca; each with three nematothecae, one median inferior and two
lateral.

Hydrotheca with double curvature; abcauline wall strongly convex basally
and with maximum curvature at 4-4 height; concave above this and with maxi-
mum concavity at about ? height, then widening to margin; adcauline wall
following roughly the same curvature; a strong adcauline intrathecal septum
projecting into bulging basal portion; 0,4-0,6 mm in abcauline depth and 0,2-
0,3 mm in marginal diameter; margin smooth and without teeth.

Median inferior nematotheca seated below hydrotheca, with three or four
tubular apertures. Lateral nematotheca broad and spreading round lateral wall
of hydrotheca almost to abcauline side, with 4-9 apertures. Cauline nemato-
theca triangular, with four apertures, two lateral and two medial, with
intranematothecal septum.

Phylactocarp borne on first or second internode of hydrocladium, slightly
curved, unbranched, segmented at least in distal part, with two nematothecae
on each segment, bearing gonothecae on the first one or two segments.
Gonotheca globular, with truncated distal end and subterminal aperture.

Variation. The position of the inedian inferior nematotheca relative to the
hydrotheca varies. In the proximal part of the colony it is immediately below
the hydrotheca, but in the distal part it is separated from the hydrotheca by a
distance approximately equal to its own length.

Distribution outside South Africa. North of Madagascar. Type locality: off
Mocambique (25°20'S/35°17’E) in 575 to 595 m.

Distribution in South Africa. Still Bay on the south coast to Mocambique, from
200 to 595 m. 35/22 (d), 29/31 (d), 25/35 (wd)

427

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA

N aN
SSS \)
= SE = Sram Saar Ss
J Ss a OO tl

(7

G

: > “ye
u
=) On.

g origins of hydrocladia;

g gonothecae.

young phylactocarp bearing a gonotheca; F, stem; G, anterior

stem; B, anterior view of stem showin
hydrocladium with phylactocarp bearin
Scale: A and F in cm, the rest in mm/10.

wa SAN y <a «,

BY) Heels CK pa
Y "

\

RAK

>

view of stem showing young phylactocarps and origins of hydrocladia; H, hydrocladium.

C, hydrocladium; D,

Cladocarpus lignosus. A
Cladocarpus sinuosus. E,

428 ANNALS OF THE SOUTH AFRICAN MUSEUM

Cladocarpus sinuosus Vervoort, 1966
Fig. 132E-H
Cladocarpus sinuosus Vervoort, 19665: 155, figs 55-57.

Diagnosis. Hydrorhiza a tuft of fibres or a flat mat. Stem fascicled or unfascicled,
unbranched, reaching a maximum height of 53 mm, bearing hydrocladia on
anterior surface directed alternately to left and right, not divided into inter-
nodes, without septa, bearing a row of nematothecae on anterior surface, of
which there is one in the axil of each hydrocladial apophysis.

Hydrocladium consisting of sigmoidally curved thecate internodes separated
by straight or oblique nodes. Internodes containing septa, with three nemato-
thecae, one median inferior and one pair laterals.

Hydrotheca with double curvature; abcauline wall convex basally and
with maximum convexity at about 4 height, concave above this and with
maximum concavity at about ¢ height, then widening to margin; adcauline wall
following roughly the same curvature; an adcauline intrathecal septum at about
+ height projecting into bulging basal part; 0,3-0,5 mm in abcauline height and
0,13-0,2 mm in marginal diameter; margin with one median abcauline tooth
and faintly sinuous lateral edges.

Median inferior nematotheca seated below hydrotheca and more or less
reaching to its base, with two apertures, one terminal and one on upper surface
near base. Lateral nematotheca tubular, overtopping thecal margin, with two
apertures, one terminal and one mesial, with an intranematothecal septum.
Cauline nematotheca spindle-shaped, with two apertures, one terminal and one
on upper surface, with an intranematothecal septum.

Phylactocarp borne on first internode of hydrocladium, curved, unbranched,
segmented, with two very long, curved nematothecae on each segment. Nemato-
theca with up to four apertures, one terminal and the rest on the distal surface.
Gonothecae borne below first pair of nematothecae, ovoid with truncated
distal end, reaching 0,4 mm in length and 0,3 mm in maximum diameter
(young).

Variation. This rare species is known only from a few stems. From these it is
evident that there is variation in

(i) The number of cauline nematothecae between two successive hydrocladia
(1-5).

(ii) The number of septa in the hydrocladial internodes (3-8). There are one or
two below the hydrotheca, 2—5 behind it and sometimes one above it.

(iii) The length of the hydrocladial internodes, particularly the distal part where
evidence of regeneration may be present.

(iv) The size of the hydrotheca and the amount of curvature.

(v) The occasional absence of the abcauline marginal tooth of the hydrotheca.

Vervoort has established a separate variety edentatus for the form without a
marginal thecal tooth and with a slender hydrotheca.

Distribution. Endemic to South Africa.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 429

Distribution in South Africa. Off Durban (type locality) and on the Agulhas Bank,
in 183 to 550 m: 35/22 (d, vd), 34/23 (d), 29/31 (d), 27/32 (d)

Cladocarpus tenuis Clarke, 1879

Fig. 133D
Cladocarpus tenuis Clarke, 1879: 247, pl. 5 (figs 31, 31b). Vervoort, 19665: 154, fig. 54.
Diagnosis. Stem unfascicled, unbranched, reaching 40 mm in height, bearing
alternate hydrocladia, containing some oblique nodes in basal region only,
bearing a row of nematothecae on anterior surface, of which one is seated in the
axil of each apophysis.

Hydrocladium consisting of weakly sigmoidal thecate internodes separated
by slightly oblique nodes. Internodes containing numerous septa and bearing
three nematothecae, one median inferior and two laterals.

Hydrotheca very deep and slender, not sigmoidally curved, narrowest in
centre, then widening to margin; abcauline wall slightly concave in centre;
adcauline wall straight; without intrathecal septum, 0,7—-0,9 mm in height (with-
out median tooth) and 0,19-0,2 mm in marginal diameter; margin with one
median abcauline tooth and crenulated lateral edges.

Median inferior nematotheca free from hydrotheca, short and not reaching
thecal base, with large, fan-shaped terminal aperture. Lateral nematotheca
tubular, overtopping thecal margin, with terminal aperture. Cauline nematotheca
similar to median inferior.

Phylactocarp borne on first internode of hydrocladium, unbranched,
segmented, with two long nematothecae (over 0,4 mm) on each internode.
Gonothecae unknown. Nematotheca with three apertures, one terminal and
two lateral.

Variation. The number of cauline nematothecae between two successive
hydrocladial apophyses varies from three to ten.

Distribution outside South Africa. Gulf of Mexico, 185 m (type locality), Virgin
Islands, West Indies.

Distribution in South Africa. Off Durban in 495 m. 29/31 (d)

Cladocarpus unicornus sp. nov.
Fig. 133E-F
Holotype. SAM-H538: off Mocgambique, 24°46’S/35°18’E, 110 m.

Description. A single stem in two parts, together 52 mm long. The stem bears
alternate hydrocladia, but most of these, and all those in the basal region, have
been broken off short. The longest are 6,5 mm in length and bear seven hydro-
thecae. At the base of the stem the component tubes separate from one another
in such a way as to suggest that this is the beginning of the rootstock and the
base of the colony.

430 ANNALS OF THE SOUTH AFRICAN MUSEUM

Stem fascicled, consisting of a principal hydrocladia-bearing tube and a
number of peripheral tubes applied to its posterior surface. The peripheral
tubes terminate one by one until the distal part of the stem remains unfascicled.
In no place is the anterior surface of the principal tube and its hydrocladia-
bearing apophyses covered by peripheral tubes..Principal tube with no visible
nodes, but with many septa (varying in number from four to ten between two
consecutive apophyses, but usually five or six). Apophyses short, each con-
taining one septum, directed alternately to the right and the left. A row of
cauline nematothecae present on the anterior surface of the principal tube,
2-4 (usually two) between two consecutive apophyses. Of these one is always
axillary and displaced to the corresponding side. Cauline nematotheca with
two or three apertures, one or two terminal and one on upper surface.

Hydrocladia bearing up to seven straight thecate internodes separated by
slightly oblique nodes. Each internode containing 8-12 septa, usually two below
the hydrotheca, six or seven behind it and two above it.

Hydrotheca with double curvature: abcauline wall strongly convex basally
and with maximum convexity at about + height, this part capped by a short
solid horn of perisarc; strongly concave and indented above this, with maximum
concavity at about # height; then widening evenly to margin. Adcauline wall
strongly convex in basal 3, the convexity decreasing gradually beyond this.
Margin with a single inturned abcauline tooth and the lateral edges cut away
where they approach the internode. A strong adcauline intrathecal septum
present, curved upwards and projecting into bulging basal portion.

Median inferior nematotheca short and free from hydrotheca, with two
apertures, one terminal and one on upper surface near base. Lateral nemato-
theca tubular and overtopping thecal margin; with three apertures, one termi-
nal, one in centre of lateral surface, and one on mesial surface near base.

Phylactocarps absent, though scars for their attachment present on some
hydrocladia immediately below the first hydrotheca.

Measurements (mm)

Distance between two consecutive hydrocladia mst ape .. 0,51-0,69
Hydrocladium, internode length .. a ae ne a .. 0,78-0,98
Hydrotheca, depth including median tooth ae ce ¥! .. 0,61-0,68

diameter at margin .. ee an de a: ve .. 0,23-0,28

Remarks. In the degree of convexity of the basal part of the hydrotheca
C. unicornus lies between C. crepidatus sp. nov. and C. inflatus Vervoort, 1966.

It differs from C. crepidatus in its straight hydrocladial internodes, in the
cut-away adcauline edges of the hydrotheca and in the presence of a horn on
the abcauline thecal wall.

In C. inflatus the curvature of the hydrotheca has involved three of the
internodal septa, which have been drawn away from the opposite side of the
hydrocladium. This has not occurred in C. unicornus.

Distribution. Endemic to South Africa.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 431

Fig. 133.

Cladocarpus valdiviae. A, hydrocladium; B, anterior view of stem showing phylactocarps;
C, male gonotheca and nematotheca from phylactocarp.
Cladocarpus tenuis, redrawn from Vervoort (19665). C-, “ydrocladium and phylactocarp.
Cladocarpus unicornus sp. nov., from holotype. E, anterior view of stem showing origins of
hydrocladia; F, hydrocladium.
Scale in mm/10.

432 ANNALS OF THE SOUTH AFRICAN MUSEUM

Distribution in South Africa. The only record is the holotype recorded above.
24/35 (d)

Cladocarpus valdiviae Stechow, 1923
Fig. 133A-C
Cladocarpus (?) valdiviae Stechow, 1923b: 116. Stechow, $925a: 507, fig. 48.

Diagnosis. Stem fascicled, unbranched, reaching a height of 39 mm, bearing
alternate hydrocladia from the anterior surface of an axial tube. Axial tube
unsegmented, bearing two, or occasionally three, nematothecae between two
successive hydrocladia, one of which is seated in the axil of the hydrocladial
apophysis.

Hydrocladium consisting of up to 14 thecate internodes separated by
slightly oblique nodes. Internodes straight, containing four or five septa, one
below hydrotheca and three or four behind it; with thick perisarc; each with
three nematothecae, one median inferior and one pair laterals.

Hydrotheca tubular, with triple curvature; abcauline wall convex in basal
part, concave in central part and with maximum concavity below half height,
convex above this; adcauline wall with similar curvature but less pronounced;
an abcauline intrathecal septum arising from indentation in abcauline wall and
projecting half-way across cavity; 0,3-0,4 mm in height and 0,10—0,13 mm in
marginal diameter; margin with one straight median abcauline tooth.

Median inferior nematotheca free from hydrotheca, short and not reaching
thecal base, with two apertures, one terminal and one on upper surface near
base. Lateral nematotheca tubular, overtopping thecal margin, with two aper-
tures, one terminal and one mesial. Cauline nematothecae tubular to triangular.

Phylactocarps borne in a double row on front of stem, one on the first
internode of each hydrocladium, unbranched, curved over towards centre,
unsegmented, with 3-5 pairs of long nematothecae and a varying number of
septa, bearing gonothecae on concave surface. Nematothecae with two aper-
tures, one distal and one lateral. Gonotheca (only male known) curved-oval,
with subterminal circular aperture.

Distribution. Endemic to South Africa.

Distribution in South Africa. Agulhas Bank off Mossel Bay in 155-200 m.
(This species has been rediscovered as a fertile colony from practically the
same position as the type locality.) 35/22 (d)

Genus Gymnangium Hincks, 1874
Syn. Halicornaria Allman, 1874.

Diagnosis. Stem branched or unbranched, bearing pinnately arranged hydro-
cladia. Hydrocladia unbranched. Hydrotheca cup- or flask-shaped, with or
without an intrathecal septum, usually with a toothed margin. Nematothecae
usually with more than one aperture; median inferior adnate to abcauline

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 433

thecal wall, often very long and overtopping thecal margin. Gonothecae unpro-
tected in any way, usually borne on the hydrocladia or their apophyses, which
are unmodified.

Type species: Aglaophenia pennatula Hincks, 1868 (nec. auct.)
(= Halicornaria montagui Billard, 1912)

KEY TO SPECIES

1. Stem fascicled and branched. Hydrocladia usually with internodal septa. Hydrotheca

with untoothed margin and an adcauline intrathecal septum .. : G. gracilicaule
— Stem unfascicled. Hydrocladia without internodal septa. Hydrotheca without ad-

cauline intrathecal septum .. ae nf irs A 2 Man wD
2. Hydrotheca with abcauline iatheeal seatun 3
— Hydrotheca with no intrathecal septum ” Ss eae Js)
3. Median inferior nematotheca short, seldom denapeing Rydt otters “a eG HIGUS
— Median inferior nematotheca long, about twice length of hydrotheca Bs, se OF
4. Median inferior nematotheca tubular, with two openings, one just above thecal

margin, one on summit ae : G. allmanii

I

Median inferior nematotheca eufter-shaped: opening ‘along. entire upper surface
G. montagui

5. Median inferior nematotheca trifid, with three terminal openings oe .. G. ferlusi
— Median inferior nematotheca with one terminal point or opening ae me aay, 6
6. Median inferior nematotheca short, never reaching thecal margin at G. exsertum
— Median inferior nematotheca long, overtopping thecal margin, at least in some part of
hydrocladium Ce aa ae Ae
7. Hydrotheca with a pronounced aediani adcauiline ceil teoth fF G. arcuatum
— Hydrotheca without median adcauline marginal tooth .. pi : a Ame 8
8. Lateral thecal teeth low and rounded. Median inferior ReeA eos gently curved
with free part forming an angle of 40—50° with internode ; G. africanum
— Lateral thecal teeth longer than wide. Median inferior nematotheca markedly bent,
with free part parallel with internode a a a Bt - G. longirostre

Gymnangium africanum (Millard, 1958)
Fig. 134A—-E

Halicornaria africana Millard, 1958: 215, fig. 1SA—C. Millard, 1968: 280, fig. 6A.
Gymnangium africanum: Millard, 1973: 25, fig. 2A—B.
Diagnosis. Stem unfascicled, unbranched, reaching a maximum height of 165
mm, bearing opposite or subopposite hydrocladia, divided into internodes by
transverse nodes. Internodes without septa, bearing two hydrocladial apophyses
and six nematothecae, three to each apophysis, one on anterior surface below
apophysis, one axillary anterior and one axillary posterior.

Hydrocladium bearing hydrothecae on anterior surface, consisting of
thecate internodes separated by slightly oblique nodes. Internodes without
septa.

Hydrotheca flask-shaped, widening to margin, without intrathecal septum,
0,2-0,3 mm in height and 0,16—0,19 mm in marginal diameter. Margin forming
an angle of 40-60° with internode, with seven marginal teeth, one sharp abcau-
line and three pairs low laterals of which the most adcauline is the smallest.
Hydropore surrounded by small spines.

434 ANNALS OF THE SOUTH AFRICAN MUSEUM

Median inferior nematotheca long, adnate to abcauline thecal wall and
continued beyond it for about the same distance; free part curved gently
distalwards and tapering to a point which may be open or closed; with a second
aperture on upper surface at beginning of free part; no opening into hydrotheca.
Lateral nematotheca saccular, not reaching thecal margin, with one broad
terminal aperture. Cauline nematotheca similar to lateral.

Gonothecae unknown.

Variation. The lower part of the stem is devoid of hydrocladia, irregularly
segmented and bears scattered nematothecae.

Variation occurs in the marginal thecal teeth, which may be ‘smoothed
out’ and indistinct, particularly towards the base of the hydrocladium.

The corner of the lateral nematotheca may be raised into a short tubular
structure, thus forming two apertures, particularly towards the tip of a
hydrocladium and on the stem.

An epizootic form occurs, in which solitary hydrocladia arise direct from
an epizootic hydrorhiza. The internodes are more slender, the marginal thecal
teeth indistinct, and the median inferior nematothecae very strongly reduced
so that they do not reach the margin of the hydrotheca. The latter character
is always more extreme towards the base of the hydrocladium.

Distribution. Endemic to South Africa.

Distribution in South Africa. Natal in 27 to 91 m. Type locality: 28°28’S/
32 25,8 E- 30/3 G); 28/3256)

Gymnangium allmanii (Marktanner-Turneretscher, 1890)

Fig. 134J-K

Halicornaria plumosa Allman, 1883: 52, pl. 18.
Halicornaria allmanii Marktanner-Turneretscher, 1890: 277 (name only, for material see

G. montagui).

Halicornaria allmani: Billard, 1910: 45, fig. 20. Billard, 1912: 474, fig. 7. Jaderholm, 19235:

5, fig. Millard, 1968: 282, fig. 6C.

Diagnosis. Stem unfascicled, unbranched, reaching a maximum height of 99
mm, bearing alternate hydrocladia, divided into internodes by straight nodes.
Internodes without septa, bearing hydrocladial apophyses with three nema-
tothecae, one inferior anterior, one posterior axillary and one anterior axillary.
The two rows of hydrocladia more or less in one plane.

Hydrocladium bearing hydrothecae on anterior surface, consisting of
thecate internodes separated by straight or slightly oblique nodes. Internodes
without septa.

Hydrotheca cup-shaped, with convex adcauline wall and more or less
straight abcauline wall, with an abcauline intrathecal septum reaching about
half-way across, 0,16-0,20 mm in height and 0,11—0,14 mm in marginal diameter.
Margin facing outwards and forming an angle of 20-30° with internode; with a

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 435

A.B,G.H
(Cy
a

EERE

Fig. 134.

Gymnangium africanum. A and B, distal and proximal ends of hydrocladium; C, stem;
D, anterior view of stem showing origins of hydrocladia (gonothecal scars shaded);
E, hydrocladium of epizootic form.

Gymnangium montagui. F, hydrotheca, redrawn from Marktanner-Turneretscher (1890, as
Halicornaria allmanii var.).

Gymnangium hians. G and H, hydrothecae from distal and proximal ends of hydrocladium.

Gymnangium allmanii. J and K, hydrothecae from distal and proximal ends of hydrociadium.

Scale: C in cm, the rest in mm/10.

436 ANNALS OF THE SOUTH AFRICAN MUSEUM

distinct but low triangular lateral tooth on each side and adcauline to it a bay
of varying depth; no median teeth.

Median inferior nematotheca long, tubular, adnate to abcauline thecal
wall and continued beyond it for about the same distance; free part curved
distally; with two apertures, one terminal and one on upper surface at beginning
of free part, no opening into hydrotheca. Lateral nematotheca pear-shaped,
not reaching thecal margin, with one or more apertures. Cauline nematotheca
broad, with two or three terminal apertures.

Gonothecae borne on hydrocladial apophyses and forming a double row
on front of stem, sac-shaped and truncated distally.

Variation. The most variable feature is the hydrothecal margin. In the South
African material the lateral tooth has a straight or oblique posterior edge and
the bay behind it is shallow. In material from other regions, however, the bay is
deeper and may be recessed below the lateral tooth. The bay is also said to be
more pronounced towards the base of a hydrocladium (Billard 1912).

The lateral nematotheca is of variable structure. In addition to the terminal
aperture with a tubular neck, there is a sac-like projection over the thecal
wall which may have one to several apertures.

There may be two hydrocladia to an internode in the lower part of the
stem and one in the upper part.

Distribution outside South Africa. Off Brazil in 59 m (type locality), Marshall
Islands (Pacific).

Distribution in South Africa. Natal and Mocambique in 42 to 64 m. 29/31 (s),
25/33 (s), 28/32 (s)

Gymnangium arcuatum (Lamouroux, 1816)
Fig. 135A—F

Aglaophenia Arcuata Lamouroux, 1816: 167, pl. 4 (fig. 4).
Halicornaria cornuta Allman, 1886: 153, pl. 23 (figs 1-4).
Halicornaria arcuata: Billard, 1907a: 366, fig. 13. Bale, 1913: 141, pl. 13 (figs 1-4). Millard,

1958: 218, fig. 15D-r. Millard, 1962: 307, fig. 1OA-E. Redier, 1967: 403.

Gymnangium arcuatum: Millard 1973: 23, fig. 1.

Diagnosis. Stem unfascicled, usually unbranched, reaching a maximum height
of 128 mm, bearing alternate hydrocladia, divided into short, broad internodes
by oblique nodes. Each internode without septa, bearing one hydrocladial
apophysis and three nematothecae adjacent to apophysis, two on anterior surface
and one on posterior surface.

Hydrocladium bearing hydrothecae on anterior surface, consisting of
thecate internodes separated by slightly oblique nodes. Internodes without
septa.

Hydrotheca flask-shaped, widening to margin, without true intrathecal
septum, 0,19-0,3 mm in abcauline height and 0,12—0,19 mm in marginal dia-
meter, with a small abcauline projection overarching hydropore and bearing

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 437

two or three minute denticles. Margin forming an angle of approximately 50°
with internode; with six or eight marginal teeth, one incurved adcauline, one
incurved abcauline and two or three pairs low, rounded laterals.

Median inferior nematotheca long, adnate to abcauline thecal wall and
continued beyond it usually for about the same distance; curved distalwards;
with free part compressed laterally and tapering distally to a point, which may
be open or closed; with a second aperture on upper surface at base of free part;
no opening into hydrotheca. Lateral nematotheca sac-shaped, reaching approxi-
mately to thecal margin, with two terminal apertures, of which one may be
prolonged into a tube or a long, closed spine. Cauline nematothecae similar
to laterals, with two or three apertures.

Gonothecae borne on hydrocladial apophyses, one to each, and forming
a double row on anterior surface of stem, spherical to oval and truncated
distally.

Variation. South African material is so far all unbranched, but the type material
branched several times ‘dichotomously’, and Billard (1907a) reports branching
stems from Madagascar. Branching hydrocladia have been observed once,
probably the result of injury.

In the hydrotheca the shape and number of the lateral marginal teeth vary.
There may be two or three pairs. In the latter case the middle tooth may be the
smallest, which is usually the case in the distal regions of the hydrocladia, or
the most adcauline tooth may be poorly defined, which is usually the case in
the proximal regions of the hydrocladia.

In the nematothecae the length of the free part of the median inferior is
very variable, even in the same stem. The production of one of the apertures of
the lateral nematotheca into a tube or spine usually occurs in the distal regions
of the hydrocladia.

An epizootic form of the species occurs growing on the stems of other
hydroids (Thecocarpus formosus) or on the stem of the normal form (var.
epizootica Millard, 1958; subsp. epizootica: Millard, 1962). This consists of
solitary hydrocladia arising directly from the epizootic hydrorhiza, and, occa-
sionally, stunted stems bearing hydrocladia. In the latter some of the hydrothecae
may be normal, at any rate on the terminal parts of the hydrocladia, but on the
proximal parts of the hydrocladia and in all solitary hydrocladia the hydrothecae
and their nematothecae are stunted, this process becoming more marked towards
the base of the colony. The stunting involves

(a) the hydrocladial internodes which are more slender and delicately formed,

(6) the hydrothecae, which are smaller, as little as 0,11 mm in depth and 0,11 mm
in marginal diameter,

(c) the marginal thecal teeth, which tend to be ‘smoothed out’, with the excep-
tion of the median abcauline tooth which remains normal,

(d) the median inferior nematotheca, which no longer reaches the margin of the
hydrotheca, so that the free portion with its aperture is missing,

(e) the lateral nematotheca, which is smaller and usually has only one aperture.

438 ANNALS OF THE SOUTH AFRICAN MUSEUM

Rarely the solitary hydrocladia consist of only one internode each, this
occurs when the hydrorhiza extends along the hydrocladia of the host.

Distribution outside South Africa. Sea of Antilles (type locality), Algiers,
Madagascar.

Distribution in South Africa. South West Africa (exact locality not recorded),
Agulhas Bank to Natal, littoral to 55 m. 34/21 (s), 34/22 (s), 34/23 (s), 33/25
(s), 33/27 (Ss), 33/28-(s), 32/28 (s), 31/29 G, s),; 30/30°G), 730/315 29/3 es)
28/32 (s)

Gymnangium exsertum (Millard, 1962)
Fig. 135G-L

Halicornaria exserta Millard, 1962: 309, fig. 11A—H.

Gymnangium exsertum: Millard, 1973: 25, fig. 2C—D.

Diagnosis. Stem unfascicled, unbranched, reaching a maximum height of 83 mm,
bearing alternate hydrocladia, divided into short, broad internodes by slightly
oblique nodes. Internodes without septa, bearing one hydrocladial apophysis
and three nematothecae, one anterior inferior, one axillary anterior and one
axillary posterior.

Hydrocladium bearing hydrothecae on anterior surface, consisting of
thecate internodes separated by transverse nodes. Internodes without septa.

Hydrotheca flask-shaped, widening to margin, with axis curved outwards
and abcauline wall concave in lower part, adnate for over # adcauline length,
then free, without intrathecal septum, 0,3-0,4 mm in abcauline height and 0,2—
0,3 mm in marginal diameter. Margin forming an angle of approximately 60°
with internode, with eight marginal teeth, one low, rounded adcauline, one
narrow abcauline and three pairs laterals.

Median inferior nematotheca short, adnate to abcauline thecal wall and
reaching to about one-third of its height, with one terminal aperture; no open-
ing into hydrotheca. Lateral nematotheca ovoid, not reaching thecal margin,
with one broad terminal aperture. Cauline nematothecae similar to lateral.

Gonothecae borne on hydrocladial apophyses, one to each, and forming
a double row on anterior surface of stem, bowl-shaped and truncated distally.

Variation. The proximal part of the stem may be devoid of hydrocladia and
nematothecae and unsegmented. Beyond this may occur a short region with
irregular segmentation bearing one or two nematothecae to each segment,
before the hydrocladia-bearing part starts.

An epizootic form of the species occurs growing on the stems of other
hydroids (Thecocarpus flexuosus), consisting of solitary hydrocladia arising
directly from the epizootic hydrorhiza and stunted stems bearing a few short
hydrocladia (subsp. epizootica Millard, 1962). The hydrocladial internodes are
longer and narrower than in the normal form and the hydrotheca smaller and
with the axis not so strongly bent outwards. The nematothecae are all smaller,

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 439

Figs 135:

Gymnangium arcuatum. A, fertile stem; B and C, hydrothecae from distal and proximal ends of
hydrocladium; D, anterior view of stem showing origins of hydrocladia; E, male gono-
theca; F, hydrothecae of epizootic form.

Gymnangium exsertum. G, stem; H, gonotheca; J, anterior view of stem showing scars for
gonothecae (shaded) and origins of hydrocladia; K, hydrocladium; L, hydrocladium of

epizootic form.
Scale: A and G in cm, the rest in mm/10.

440 ANNALS OF THE SOUTH AFRICAN MUSEUM

especially in the proximal regions of solitary hydrocladia where the median
inferior may not reach to the base of the hydrotheca.

Distribution. Endemic to South Africa.

Distribution in South Africa. Agulhas Bank, 50 to 115 m. Type locality: 33°49’S/
25°56’E, depth unknown. 33/25, 34/25 (s), 34/25 (d), 32/28 (s)

Gymnangium ferlusi (Billard, 1901)
Fig. 137A—C
Halicornaria ferlusi Billard, 1901: 121, figs 3-4. Billard, 1907a: 370, fig. 14, pl. 25 (fig. 8).
Millard, 1962: 312.

Halicornaria ferlusi var. brevis Jarvis, 1922: 354, fig. 5, pl. 26 (fig. 27).

Diagnosis. Stem unfascicled, unbranched, reaching a maximum height of
148 mm, bearing alternate hydrocladia, divided into internodes by oblique nodes
which slope alternately to left and right. Internodes without septa, bearing
one hydrocladial apophysis and three nematothecae, one anterior inferior, one
axillary anterior and one axillary posterior. Mamelon present on upper surface
of apophysis.

Hydrocladium bearing hydrothecae on anterior surface, consisting of
thecate internodes separated by slightly oblique nodes. Internodes without septa.

Hydrotheca flask-shaped, widening to margin, without intrathecal septum,
0,2-0,3 mm in abcauline height and 0,15-0,19 mm in marginal diameter.
Margin forming an angle of approximately 50° with internode; with five mar-
ginal teeth, one abcauline and two pairs laterals of which the more adcauline
is small and sharp and the more abcauline broad and low; adcauline edge
indented in centre.

Median inferior nematotheca long, adnate to abcauline thecal wall and
continued beyond it for the same distance or less, free part curved distally,
trifid, with three terminal apertures of which the centre one is higher than
the others; with an additional aperture on upper surface at beginning of free
part; no opening into hydrotheca. Lateral nematotheca kidney-shaped, not
reaching thecal margin, with 3-4 apertures. Cauline nematotheca similar to
lateral, with 3—5 apertures.

Gonothecae borne on hydrocladial apophyses, one to each, and forming

a double row on anterior surface of stem, ovoid, truncated distally when
mature.

Variation. Jarvis reports a variety from East Africa in which the median inferior
nematothecae are much shorter, reaching to only just above the thecal margin.

Distribution outside South Africa. Fort Dauphin in Madagascar (type locality),
Wasin in East Africa.

Distribution in South Africa. East coast of Cape Province and Natal in 27 to
48 m. 31/29 (s), 30/30 (s), 28/32 (s)

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 441

Gymnangium gracilicaule (Jaderholm, 1903)

Fig. 136

Lytocarpus gracilicaulis Jaderholm, 1903: 299, pl. 14 (figs 3-4).

Halicornaria gracilicaulis: Billard, 1913: 63. Jaderholm, 1920: 9, pl. 2 (fig. 9).

Diagnosis. Hydrorhiza attached to hard objects or forming a branched rootstock
for penetration of the substratum. Stem fascicled, bearing alternate branches
which may redivide in the same way giving up to four orders; all branching in
one plane. Stem and branches bearing alternate hydrocladia from an axial
tube, which is always exposed on anterior face. Axial tube of branch arising
from peripheral tube of stem, in smaller branches divided into regular inter-
nodes by oblique nodes; segmentation invisible in larger branches. Internodes
without septa, bearing one hydrocladial apophysis and two nematothecae,
one anterior inferior and one anterior axillary. Peripheral tubes bearing one or
more longitudinal rows of nematothecae.

Hydrocladium bearing hydrothecae on anterior surface, consisting of
thecate internodes separated by transverse or slightly oblique nodes. Internodes
usually curved, with or without septa.

Hydrotheca deep, sigmoidally curved, not obviously widening to margin;
0,2-0,5 mm in total height and 0,09-0,16 mm in marginal diameter; abcauline
wall convex in lower part, concave in upper part and with a perisarcal thickening
below margin; containing a short adcauline intrathecal septum immediately
above hydropore. Margin facing away from internode; without definite teeth,
smooth, sinuated, or with a low triangular lobe on each side.

Median inferior nematotheca adnate to abcauline thecal wall to just above
level of intrathecal septum, then free and divergent; with two apertures, one
terminal and one on upper surface at beginning of free part; with an additional
opening into hydrotheca near top of adnate part. Lateral nematotheca tubular,
overtopping thecal margin, with two apertures, one terminal and one mesial.
Cauline nematotheca pear-shaped, with two apertures, one terminal and one
adcauline.

Gonothecae borne on hydrocladial apophyses, flattened. Male, when mature
(not recorded from South Africa), with two distal horns of unequal size sub-
tending a terminal aperture. Female truncated distally and containing one egg.

Variation. The basal part of a branch is unsegmented and devoid of hydrocladia
though it bears a row of nematothecae. This part may or may not be separated
from the distal hydrocladium-bearing part by a hinge-joint.

The length of the free part of the median inferior nematotheca is variable
and on this character Billard (1913) established a var. armata for a form with
very long nematothecae (0,38 mm) from the Dutch East Indies. In South
African material the length of the free part varies from 0,02 to 0,22 mm.

Variation in the degree of branching and general appearance of the colony
has Jed to the separation of two subspecies in the South African material
(Millard 1968).

442 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 136.

Gymnangium gracilicaule gracilicaule. A, stem; D, hydrocladium.
Gymnangium gracilicaule lignosum. B, stem; C, anterior view of stem showing gonothecae
and origins of hydrocladia; E, hydrocladium.
Scale: A and B in cm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 443

Distribution outside South Africa. Tropical and subtropical waters from the
western Pacific through the Indian Ocean to the Red Sea, Suez and east coast
of Africa. Type locality: China Sea, 27°35 'N/123°35’E in 91 m.

Distribution in South Africa. Natal and Mogambique in 42 to 350 m, with
one record from off Cape Town. There is no essential difference in the distribu-
tion of the two subspecies, except that G. g. gracilicaule seems to penetrate to
greater depths (to 350m) than G. g. lignosum (to 100 m). 33/18, 30/30 (s), 29/31
(d), 28/32 (s, d), 26/32, 25/33 (Ss), 24/35°{s), 21/35

KEY TO SUBSPECIES

1. Stem flexuous. Internodal septa of hydrocladium poorly developed, not more than
two ea: ic ar ae oe & bss ~ i .. G.g. gracilicaule
— Stem stiff. Internodal septa of hydrocladium well developed, more than two G. g. lignosum

Gymnangium gracilicaule gracilicaule (Jaderholm, 1903)
Fig. 136A, D

Halicornaria gracilicaulis: Millard, 1967: 191. Vervoort, 1967: 47, figs 14-15.
Halicornia gracilicaulis gracilicaulis: Millard, 1968: 282.

Diagnosis. Stem lightly fascicled, flexible, reaching 171 mm, with two orders of
branching only (i.e. stem bearing alternate branches which bear hydrocladia).
Branches unfascicled, flexible. Hydrocladial internodes slender and long, with
internodal septa poorly developed or absent. Hydrotheca deep and slender
(0,3-0,5 mm in total height), sigmoidal curvature not pronounced and margin
usually forming an angle of 45° or more with internode, with an interval of at
least 0,1 mm between abcauline margin and point of separation of median
inferior nematotheca from hydrotheca.

Gymnangium gracilicaule lignosum (Millard, 1968)
Fig. 136B-C, E

ee gracilicaulis: Billard, 1907a (pp): 364, fig. 12, pl. 25 (fig. 7). Millard, 1958: 219,
. 1SI-J.

Fon eee gracilicaulis lignosa Millard, 1968: 282.

Diagnosis. Stem strongly fascicled and woody, rigid, reaching 205 mm in height,
with up to four orders of branching. Branches fascicled or unfascicled, rigid.
Hydrocladial internodes short and well-marked, with up to six well-developed
internodal septa. Hydrotheca comparatively short (0,2-0,3 mm in total height),
sigmoidal curvature pronounced and margin forming an angle of less than 45°
with internode, with a distance of about 0,05 mm between abcauline margin and
point of separation of median inferior nematotheca from hydrotheca. Perisarc
strongly developed and thickening in abcauline thecal wall very conspicuous.

444 ANNALS OF THE SOUTH AFRICAN MUSEUM

Gymnangium hians (Busk, 1852)

Fig. 134G—H
Plumularia hians Busk, 1852: 396.
Halicornaria hians: Billard, 1913: 68, fig. 56. Vervoort, 1941: 222, figs 7-8. Millard, 1958:

219, fig. 1SG—H. Pennycuick, 1959: 186.

Halicornaria hians var. profunda: Ritchie, 1910a: 24, pl. 4 (figs 13-14).

Diagnosis. Stem unfascicled, unbranched, reaching a maximum height of 9 mm,
bearing alternate hydrocladia, divided into internodes by straight nodes.
Internodes without septa, bearing one or two hydrocladial apophyses and three
nematothecae to each apophysis, one anterior inferior, one axillary anterior and
one axillary posterior.

Hydrocladium bearing hydrothecae on anterior surface, consisting of
thecate internodes separated by straight or slightly oblique nodes. Internodes
without septa.

Hydrotheca cup-shaped, with convex adcauline wall and indented abcauline
wall; with an abcauline intrathecal septum reaching about half-way across, the
edge of which is thickened, upturned and denticulate, 0,13-0,3 mm in height
and 0,16-0,2 mm in marginal diameter. Margin facing outwards and forming
an angle of 20-40° with internode, with three pairs of broad lateral teeth; no
median teeth; adcauline edge indented.

Median inferior nematotheca of variable length, adnate to abcauline thecal
wall to approximately the level of the intrathecal septum, then free, with tip
reaching approximately to thecal margin; with one aperture extending along
upper surface of free part; with a perisarcal thickening in abcauline wall; no
opening into hydrotheca. Lateral nematotheca sac-shaped, not reaching thecal
margin, with one wide terminal aperture. Cauline nematothecae similar to
lateral.

Gonothecae (not yet found in South Africa) borne on hydrocladial
apophyses, one to each, and forming a double row on anterior surface of stem,
vase- or cup-shaped and truncated distally.

Variation. The only record from South Africa is an epizootic colony growing on
Gymnangium gracilicaule and as is so often the case in epizootic forms the
hydrothecae and nematothecae are probably somewhat stunted. The free-
living form could be expected to have better-developed marginal thecal teeth
and a longer median inferior nematotheca, with possibly two apertures, one
terminal and one on upper surface.

In this material the stem internodes usually bear one hydrocladium, and
only rarely two. In material from elsewhere two hydrocladia to an internode is
the rule and many more have been reported.

The marginal hydrothecal teeth are known to be very variable, either sharp
and pointing towards the adcauline side, or low and bluntly rounded. In var.
balei the most abcauline tooth is reduced.

The length of the median inferior nematotheca is variable in the single
colony from South Africa. In the proximal parts of the hydrocladia the adnate

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 445

part terminates below the level of the intrathecal septum and the tip does not
reach the thecal margin. In the distal parts of the hydrocladia the adnate part
terminates above the intrathecal septum and the tip overreaches the thecal
margin.

Distribution outside South Africa. Centre of distribution in East Indies from
where it extends into the Pacific Ocean to Japan, Hawaii and the Kermadec
Islands and into the Indian Ocean to the Red Sea and the east coast of Africa.
Also from the Caribbean Sea. Type locality: Torres Strait in 16 m.

Distribution in South Africa. Natal in 73 m. 30/30 (s)

Gymnangium longirostre (Kirchenpauer, 1872)

Aglaophenia longirostris Kirchenpauer, 1872: 28, 42, pl. 1 (fig. 19), pl. 5 (fig. 20).
Halicornaria longirostris: Bale, 1884: 181, pl. 13 (fig. 7), pl. 16 (fig. 3), pl. 19 (fig. 30). Mark-
tanner-Turneretscher, 1890: 279. Ralph, 1961b: 54, fig. 7 h-i. Millard, 1961: 207.

Diagnosis. Stem unfascicled, branched or unbranched, bearing alternate or
subalternate hydrocladia, divided into internodes by oblique nodes. Internodes
without septa, bearing one or two hydrocladial apophyses and three nemato-
thecae to each apophysis, two anterior and one posterior.

Hydrocladium consisting of thecate internodes separated by slightly
oblique nodes. Internodes without septa.

Hydrotheca cup-shaped, widening to margin, without intrathecal septum.
Margin forming an angle of about 60° with internode, with seven teeth, one
median abcauline incurved and three pairs of well-formed laterals of which
the two most adcauline pairs are the longest. Hydropore surrounded by minute
denticles.

Median inferior nematotheca long, adnate to abcauline thecal wall and
continued beyond it for about the same distance; free part bent distally and its
end approximately parallel to internode; with two apertures, one terminal and
one on upper surface at beginning of free part; no opening into hydrotheca.
Lateral nematotheca sac-shaped, not reaching thecal margin, with terminal and
lateral openings which may be confluent. Cauline nematotheca similar to
lateral.

Gonothecae borne on hydrocladial apophyses, small and truncated
distally.

Remarks. This species was reported by Millard from Busk’s collection of South
African hydroids in the British Museum collected in 1899. It has not been found
since and its occurrence in South Africa needs verification. The above diagnosis
has been taken from the literature.

Distribution outside South Africa. Australia (type locality), New Zealand.

Distribution in South Africa. Algoa Bay. 33/25

446 ANNALS OF THE SOUTH AFRICAN MUSEUM

Gymnangium montagui (Billard, 1912)

Fig. 134F

Aglaophenia pennatula: Hincks, 1868: 292, fig. 33, pl. 63 (fig. 3).

Halicornaria allmanii var. Marktanner-Turneretscher, 1890: 277, pl. 6 (fig. 23).

Halicornaria montagui Billard, 1912: 473, figs 6, 8. Bedot, 1921: 345.

non Sertularia pennatula Ellis & Solander, 1786: 56, pl. 7 (figs 1-2).

?Aglaophenia pennatula: Krauss, 1837: 25.

?Plumularia pennatula: Busk, 1851: 118.

Diagnosis. Stem unfascicled, unbranched, about 140 mm in height, bearing
subalternate hydrocladia, divided into internodes by oblique nodes. Internodes
bearing two closely approximate subalternate hydrocladial apophyses and three
nematothecae to each apophysis, one inferior anterior, one posterior axillary
and one anterior axillary.

Hydrocladium consisting of thecate internodes separated by oblique nodes.
Internodes without septa.

Hydrotheca cup-shaped, with convex adcauline wall and more or less
straight abcauline wall, with an abcauline intrathecal septum reaching about
half-way across, about 0,26 mm in height and 0,21 mm in marginal diameter.
Margin facing outwards, with a distinct but low triangular lateral tooth on each
side and adcauline to it a bay of varying depth, the bay never recessed below the
lateral tooth; no median teeth.

Median inferior nematotheca long, adnate to abcauline thecal wall and
continued beyond it for about the same distance, free part curved distally,
gutter-shaped and open along entire upper edge, no opening into hydrotheca.
Lateral nematotheca sac-shaped, not reaching thecal margin, with one broad
terminal aperture. Cauline nematotheca with one terminal aperture.

Gonothecae (not yet found in South Africa) borne on stem, pear-shaped,
truncated distally, smooth (Hincks).

Variation. As in the closely related G. allmanii, the margin of the hydrotheca is
variable. The lateral tooth and the bay behind it tends to be more distinct
towards the distal end of a hydrocladium (Billard 1912).

Distribution outside South Africa. Europe, Atlantic coast of Morocco. Type
locality doubtful.

Distribution in South Africa. One certain record, that of Marktanner-
Turneretscher from the Cape of Good Hope and a doubtful record from Mossel
Bay (Krauss).

Genus Lytocarpus Allman, 1883
Syn. Lytocarpia Stechow, 1919.
Macrorhynchia Stechow, 1919.
Diagnosis. Stem bearing alternate hydrocladia and usually branched and fas-
cicled. Hydrocladia unbranched. Hydrotheca cup-shaped, usually with an
abcauline intrathecal septum and a toothed margin. Median inferior nemato-

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 447

theca partly adnate to abcauline thecal wall and partly free, usually long and
reaching at least to level of thecal margin, usually with two openings to the
exterior and one into the hydrotheca.

Gonothecae borne on unbranched phylactocarps which are modified
hydrocladia and may be aggregated into a pseudocorbula.

Type species: Lytocarpus spectabilis Allman, 1883
(= Plumularia phoenicea Busk, 1852).

KEY TO SPECIES

1. Hydrotheca without abcauline marginal tooth, but with two or more pairs lateral
teCth ~ 2. ne am 8 a a ee a ea is L. phoeniceus
Hydrotheca with an abcauline marginal tooth and one pair of low lateral teeth 5 eee:

2. Segments of hydrocladium sharply demarcated on posterior surface and often
produced as a spine. Abcauline thecal tooth equal to or longer than lateral teeth.
Abcauline intrathecal septum reaching about 4} distance across hydrotheca L. filamentosus

— Segments of hydrocladium not sharply demarcated on posterior surface. Abcauline
thecal tooth shorter than lateral teeth. Abcauline intrathecal septum reaching half-
way across hydrotheca or nearly so a si ay ft a L. philippinus

Lytocarpus filamentosus (Lamarck, 1816)
Fig. 137E-G

Plumularia filamentosa Lamarck, 1816: 128.

Aglaophenia ligulata Kirchenpauer, 1872: 42, pl. 1 (figs 21-22), pl. 2 (fig. 21), pl. 5 (fig. 21).

Aglaophenia fusca Kirchenpauer, 1872: 43, pl. 1 (figs 21-22), pl. 2 (fig. 22), pl. 6 (fig. 22).
Marktanner-Turneretscher, 1890: 266, pl. 6 (fig. 17).

Aglaophenia patula Kirchenpauer, 1872: 44, pl. 1 (fig. 23), pl. 2 (fig. 23), pl. 6 (fig. 23).

Lytocarpus patulus: Marktanner-Turneretscher, 1890: 274, pl. 6 (fig. 12).

Lytocarpus filamentosus: Billard, 1907a: 371, figs 15-17. Jaderholm, 1917: 18, pl. 2 (fig. 11).
Redier, 1967: 404.

Halicornaria segmentata Warren, 1908: 328, pl. 48 (figs 33-36).

Aglaophenia plumosa: Stechow, 1925a: 514 (nec. auct.)

Diagnosis. Stem fascicled, branching irregularly, reaching a maximum height of

150 mm, bearing alternate hydrocladia from an axial tube. Branches arising

from peripheral tubes of stem, unfascicled or lightly fascicled, bearing alternate

hydrocladia. Axial tube of stem and branch with a hinge-joint separating a short

basal part bearing median nematothecae only, from a distal part bearing hydro-

cladia; basal part segmented, often indistinctly, distal part divided into regular

internodes by oblique nodes. Each internode bearing one hydrocladial apophysis

and two nematothecae, one inferior anterior and one axillary anterior. Mamelon

present on anterior surface of apophysis. The two rows of hydrocladia not in

one plane but displaced on to anterior surface.

Hydrocladium bearing hydrothecae on anterior surface, consisting of
thecate internodes separated by oblique nodes. Internodes sharply demarcated,
with distal end of posterior surface often produced as a spine, with two
internodal septa.

Hydrotheca cup-shaped and curved away from internode; with a thick
abcauline intrathecal septum reaching about one third of the distance across

448 ANNALS OF THE SOUTH AFRICAN MUSEUM

\
NW N
D
YN VF
a
7
; /, | )
|
} Sy Li, Y Lg eu,
} Q

Bigs 1372

Gymnangium ferlusi. A, hydrocladium; B, anterior view of stem showing gonothecae and
origins of hydrocladia; C, fertile stem.

Lytocarpus phoeniceus. D, hydrocladium.

Lytocarpus filamentosus. E, stem; F, hydrocladium; G, anterior view of stem showing
phylactocarps bearing gonothecae, and origins of hydrocladia.

Scale: C and E in cm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 449

and an adcauline intrathecal septum at a lower level reaching about half-way
across; 0,2-0,3 mm in abcauline height and 0,11—0,2 mm in marginal diameter.
Margin forming an angle of about 40° with internode; with three marginal
teeth, one pair broad triangular laterals and one median abcauline in the form
of a solid keel continuous basally with the abcauline intrathecal septum and
projecting distally as a sharp spine reaching to just above the level of the lateral
teeth.

Median inferior nematotheca adnate to abcauline thecal wall as far as
the abcauline intrathecal septum, then free; free part tapering, straight or curved,
usually overtopping median tooth; with three openings, one transversely
elongated distal, one on upper surface at base of free part and one into hydro-
theca. Lateral nematotheca tubular, overtopping thecal margin, with two
apertures, one distal and one mesial. Cauline nematothecae conical, with two
apertures, one distal and one lateral. Nematothecae on basal part of branch
broad, with two distal apertures directed sideways.

Phylactocarp replacing every third hydrocladium, displaced towards
anterior surface of branch, curved, twisted through 180° after first internode,
consisting of one normal thecate internode, one internode in which the hydro-
theca is replaced by a gonotheca, and a distal region of variable length with
indistinct segmentation bearing pairs of nematothecae only. Gonotheca lens-
shaped, more flattened on adcauline side.

Variation. Young colonies have unbranched stems which may be unfascicled.
Nodes may be indistinct or absent on the stem or on the basal parts of older
branches. Occasionally two subopposite hydrocladia arise from one branch
internode; these have between them three cauline nematothecae, one inferior
to each and one shared anterior axillary. Only the lower apophysis bears a
mamelon. On the first internode of a hydrocladium the median inferior nemato-
theca is shorter than usual and does not reach the margin of the hydrotheca.

Remarks. Stechow’s material from the Agulhas Bank, which he assigned to
Aglaophenia plumosa Bale in 1925, is none other than a young colony of
L. filamentosus. This was ascertained by examination of a slide prepared by
Stechow kindly loaned by the Munich Museum.

Distribution outside South Africa. Australia (type locality), Madagascar, Vema
Seamount (South Atlantic).

Distribution in South Africa. South West Africa to Natal, littoral to 80 m.
34/18 (1, s), 35/19 (s), 34/20 (s), 34/21 (s), 34/22 (s), 34/23 (s), 33/25 (s), 34/25
(s), 33/27 (s), 31/29 (1, s), 30/30 (1), 29/31 (s), 28/32 (s)

Lytocarpus philippinus (Kirchenpauer, 1872)

Fig. 138A—C

Aglaophenia Philippina Kirchenpauer, 1872: 29, 45, pl. 1 (fig. 26), pl. 2 (fig. 26), pl. 7 (fig. 26).
Lytocarpus philippinus: Nutting, 1900: 122, pl. 31 (figs 4-7). Vervoort, 1968: 88, fig. 41.
Macrorhynchia philippina: Gravier 19706: 253, fig. 1.

450 ANNALS OF THE SOUTH AFRICAN MUSEUM

Diagnosis. Stem fascicled, branching irregularly, reaching a maximum height
of 155 mm, bearing alternate hydrocladia from an axial tube. Branches arising
from peripheral tubes of stem, unfascicled or lightly fascicled, divided by a
hinge-joint into a short unsegmented basal part bearing median nematothecae
only, and a distal part bearing alternate hydrocladia. Axial tube of stem and
distal part of branch divided into internodes by oblique nodes, each internode
bearing one hydrocladial apophysis and two nematothecae, one inferior anterior
and one axillary anterior. Mamelon present on anterior surface of apophysis.
The two rows of hydrocladia not in one plane but displaced on to anterior
surface.

Hydrocladium bearing hydrothecae on anterior surface, consisting of
thecate internodes separated by transverse or slightly oblique nodes. Internodes
with two internodal septa.

Hydrotheca cup-shaped and curved away from internode; with a thick
abcauline intrathecal septum reaching about half-way across and an adcauline
intrathecal septum at a lower level overarching the hydropore; 0,15—0,2 mm in
abcauline height and 0,14-0,20 mm in marginal diameter. Margin forming an
angle of 30-40° with internode; with three marginal teeth, one pair broad
triangular laterals and one median abcauline in the form of a solid keel contin-
uous basally with the abcauline intrathecal septum and projecting distally as a
short spine which does not quite reach the level of the lateral teeth.

Median inferior nematotheca adnate to abcauline thecal wall as far as the
abcauline intrathecal septum, then free; free part more or less straight, usually
overtopping thecal margin; with three openings, one rounded distal, one on
upper surface at base of free part and one into hydrotheca. Lateral nematotheca
tubular, overtopping thecal margin, with two apertures, one distal and one
mesial. Cauline nematothecae conical, with two apertures, one distal and one
lateral. Nematothecae on basal part of branch broad, with two distal apertures
directed sideways.

Phylactocarp replacing every third hydrocladium, displaced towards
anterior surface of branch, consisting of one normal thecate internode, then one
or (usually) two internodes in which the hydrotheca is replaced by a gonotheca,
then a distal region twisted through 180° and consisting of up to four internodes
bearing nematothecae only. Gonotheca lens-shaped.

Colour: stem black or brown, hydrocladia cream.

Variation. Young colonies have unbranched and unfascicled stems.

The arrangement of branches on the stem is very irregular; usually there
are two rows, in one plane or displaced anteriorly, with variable intervals between
them, and they may be opposite, alternate or quite irregular.

On the first internode of the hydrocladium the median inferior nematotheca
is Shorter than usual and barely reaches the level of the lateral marginal teeth.
On the phylactocarp the number of nematothecae on the internodes of the
distal part varies, there are usually two, sometimes three and sometimes one.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 45]

Gravely (1927) says the species ‘stings like a nettle when touched’.

Gravier (1970b) describes the release of degenerate medusae from the
gonothecae. These are without tentacles, mouth and canals, but have a
hypostome and velum and a circle of refringent corpuscles round the margin.

Distribution. Circumglobal in tropical and subtropical waters. Type locality:
Manilla, Philippine Islands.

Distribution in South Africa. Natal and Mocgambique, littoral to 44 m. 29/31 (s),
DGS2) (ls S)) 29/325 24/351(s);, 23/35 (y's), 21/35

Lytocarpus phoeniceus (Busk, 1852)

Fig. 137D
Plumularia phoenicea Busk, 1852: 398.
Lytocarpus spectabilis Allman, 1883: 43, fig. 2, pl. 15.
Aglaophenia phoenicea: Bale, 1884: 159, pl. 15 (figs 1-5), pl. 17 (figs 1-4), pl. 19 (fig. 31).
Lytocarpus phoeniceus: Billard, 1910: 48, fig. 22. Billard, 1913: 74, figs 60-61. Millard 1968:

284.

Diagnosis. Stem fascicled, branching pinnately and in one plane, reaching a
maximum height of 39 mm, bearing alternate hydrocladia from an axial tube.
Branches arising from peripheral tubes of stem, unfascicled or lightly fascicled,
consisting of a short, unsegmented basal part bearing median nematothecae
only and a distal part bearing alternate hydrocladia, but no hinge-joint. Axial
tube of stem and distal part of branches indistinctly segmented, the segmentation
being more obvious in unfascicled parts, where each internode bears one
surface of apophysis. The two rows of hydrocladia arising from anterior
hydrocladial apophysis. Two nematothecae associated with each apophysis,
one inferior anterior and one axillary anterior. Mamelon present on anterior
surface of stem and curved outwards to lie in one plane.

Hydrocladium bearing hydrothecae on anterior surface, consisting of
thecate internodes separated by transverse or slightly oblique nodes. Internodes
with two septa.

Hydrotheca cup-shaped and curved away from internode; with an abcauline
intrathecal septum stretching over half-way across and a short adcauline
intrathecal septum at a lower level overarching the hydropore; 0,12-0,17 mm in
abcauline height and 0,13-0,16 mm in marginal diameter. Margin forming an
angle of about 30° with internode; with one or two pairs of broad and low
triangular lateral teeth and a small rounded lobe on adcauline edge, no
abcauline tooth.

Median inferior nematotheca adnate to abcauline thecal wall to approxi-
mately the level of the abcauline intrathecal septum, then free; free part bent
distally at an angle to adnate part, straight, usually overtopping thecal margin;
with three openings, one distal, one on upper surface at base of free part and one
small one into hydrotheca. Lateral nematotheca tubular, overtopping thecal
margin, with two apertures, one distal and one mesial. Cauline nematothecae
saccular, with two distal openings.

ANNALS OF THE SOUTH AFRICAN MUSEUM

452

>

Ql lllllie
UG.

a

Uh
D

By

Lytocarpus philippinus. A, hydrocladium; B, anterior view of stem showing one phylactocarp

bearing gonothecae, and origins of hydrocladia; C, stem.
Thecocarpus formosus. D, stem; E and F, hydrothecae with short and long spines; G, female

corbula.

Scale: C and D in cm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 453

Phylactocarps (not yet reported from South Africa) replacing every third
hydrocladium, strongly curved, consisting of one normal thecate internode,
then one internode in which the hydrotheca is replaced by a gonotheca, then a
distal region consisting of six or more segments each bearing two or three
nematothecae only. Gonotheca lens-shaped.

Variation. Although only small colonies are known from South Africa, this
species is known to form magnificent fan-shaped colonies up to 200 mm in
height and with a thick, branching stem. The branches in turn bear secondary
branches with a pinnate arrangement.

According to the literature there is much variation in the character of the
marginal thecal teeth. There may be as many as four pairs of small lateral teeth
and the adcauline rounded lobe may be produced into a tooth which is either
straight or curved over the hydrotheca. So far these variations have not been
observed in South Africa. ;

Distribution outside South Africa. Tropical Indo-Pacific, from the Pacific
Ocean to the east coast of Africa. Type locality: Torres Strait in 16 m.

Distribution in South Africa. Natal, 49-64 m. 29/31 (s)

Genus Thecocarpus Nutting, 1900
Syn. Lytocarpa Kirchenpauer, 1872.

Diagnosis. Stem branched or unbranched, bearing alternate hydrocladia. Hydro-
cladia unbranched. Hydrotheca sac-shaped to deep, usually with toothed margin
and often with a median keel-like spine outside the abcauline tooth. Median
inferior nematotheca fairly short, usually not reaching thecal margin. Gono-
thecae in corbulae formed by modified hydrocladia bearing secondary ribs.
Ribs bearing nematothecae and at least some of them in at least one sex, bearing
one hydrotheca.

Type species: Sertularia myriophyllum Linnaeus, 1758.

KEY TO SPECIES

1. Stem branched, each branch forming a spirally twisted sympodium. Hydrotheca
usually with a second point outside abcauline marginal tooth of approximately the
same length and which may be solid or hollow .. Bye Lb ee T. flexuosus

— Stem unbranched, or if branched, not as a sympodium .. “ a on ioc BD)

2. Hydrotheca with long, hollow, curved spine arising from abcauline surface outside
abcauline marginal tooth .. a at tus aa ae ju T. formosus
— Hydrotheca with no spine or second point outside abcauline marginal tooth ee 3

3. Hydrotheca sigmoidally curved, margin with seven teeth, of which four may be
bitids a: se a 1s a as ois si a fe T. brevirostris

— Hydrotheca sac-shaped, margin with five distinct teeth and sometimes two rounded
lobes .. a = ak a Ke ae ae a a T. delicatulus

454 ANNALS OF THE SOUTH AFRICAN MUSEUM

Thecocarpus brevirostris (Busk, 1852)
Fig. 139A-—C
Plumularia brevirostris Busk, 1852: 397.
Plumularia Vitiana Kirchenpauer, 1872: 34, pl. 1 (fig. 9), pl. 3 (fig. 9).
Aglaophenia vitiana: Billard, 1907a: 388, figs 22-23.
Thecocarpus brevirostris: Billard, 1910: 51, fig. 24. Billard, 1913: 89, fig. 75. Stechow, 1919b:

137, figs A?, B®. Jarvis, 1922: 350, pl. 26 (fig. 24). Millard, 1968: 284, fig. 6B.
Diagnosis. Stem unfascicled and unbranched in young colonies, fascicled and
branched in old ones, reaching a maximum height of 90 mm. Branching roughly
alternate and strictly in one plane; branches arising from superficial tubes of
stem, themselves often fascicled and rebranched. Stem and branches bearing
alternate hydrocladia, divided into internodes by transverse nodes in the younger
parts only. Two nematothecae to each hydrocladial apophysis, one inferior
anterior and one axillary anterior. Mamelon present on anterior surface of
apophysis. The two rows of hydrocladia arising from anterior surface of stem
and directed outwards to lie in the same plane as the branches.

Hydrocladium bearing hydrothecae on anterior surface, consisting of
thecate internodes separated by slightly oblique nodes. Internodes with a variable
number of septa.

Hydrotheca deep, with that part of abcauline wall above the level of the
median nematotheca at least slightly concave and thickened, with a short
adcauline intrathecal septum about one-fifth of height from base, 0,2—0,3 mm
in abcauline height and 0,10-0,16 mm in marginal diameter. Margin forming
an angle of 50-60° with internode; with seven marginal teeth, one median
abcauline and three pairs laterals, of which the two most abcauline may be
bifid.

Median inferior nematotheca adnate to thecal wall for about half height
of latter, then free and bent away from it, usually not reaching to thecal margin,
with three apertures, one terminal, one on upper surface at base of free part
(these two often confluent) and one into hydrotheca. Lateral nematotheca
tubular and bent backwards, reaching thecal margin, with two apertures, one
terminal and one mesial (these two sometimes confluent).

Corbula with a pedicel of two hydrotheca-bearing segments, bearing 6-8
pairs of ribs and terminating in one or two hydrotheca-bearing segments. Each
rib bearing proximally a perisarcal crest supporting one hydrotheca and two
lateral nematothecae, and continued as a broad blade with nematothecae on
the outer edge and fused to the rib behind by the inner edge. Outer edge of rib
often with a leaf-like outgrowth bearing one or more nematothecae.

Colour: rich brown.

Variation. Several authors have noted a tendency to reverse the faces of the
stem, so that in the lower part the hydrocladia face one Way and in the upper
part the opposite way. This has not been observed in South Africa.
Considerable variation occurs in the hydrocladial internodes. Internodal
septa may be poorly developed and limited to one opposite the intrathecal sep-

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 455

tum, or there may be two fairly distinct ones, the second situated behind the
centre of the hydrotheca. The intrathecal septum may be very short or may
extend halfway across the hydrotheca. The depth of the hydrotheca varies and
this influences the curvature of the abcauline wall abovet he level of the median
nematotheca, which may be short, strongly concave and distinctly thickened,
or long, weakly concave and only slightly thickened. Variation also occurs along
the length of the hydrocladium, the first hydrotheca commonly being shorter
and with a more distinctly curved abcauline wall than the last one. The first
and second pairs of marginal teeth may be simple and triangular, or subdivided.
The length of the median inferior nematotheca is also variable but it does not
reach beyond the level of the thecal margin.

It is to be noted that in the only two corbulae seen in South Africa, there
are two hydrothecate internodes on the pedicel, whereas only one is reported
from other areas.

Distribution outside South Africa. South Pacific islands, northern Australia,
tropical Indian Ocean from the East Indies to Africa. Type locality: off Cumber-
land Island, Queensland, in 49 m.

Distribution in South Africa. Natal and Mocambique, in 2-70 m. 29/31 (s), 29/32
(s), 28/32 (s), 25/33 (s), 24/35 (s)

Thecocarpus delicatulus (Busk, 1852)

Fig. 139D-E
Plumularia delicatula Busk, 1852: 396.
ee delicatula: Bale, 1884: 167, pl. 14 (fig. 4), pl. 17 (fig. 11). Billard, 1913: 106,
ee delicatulus: Millard & Bouillon, 1973: 94, fig. 11J—K.
Diagnosis. Stem unfascicled, unbranched, reaching a maximum height of 30 mm,
bearing alternate hydrocladia, with one or two hinge-joints separating a short
basal part from a distal hydrocladia-bearing part. Distal part divided into
internodes by slightly oblique nodes, each internode bearing one hydrocladial
apophysis and three nematothecae, one inferior anterior, one axillary anterior
and one axillary posterior. Mamelon present on anterior surface of apophysis.
The two rows of hydrocladia arising from the anterior surface of the stem and
curving backwards.

Hydrocladium bearing close-set hydrothecae on anterior surface, consisting
of thecate internodes separated by transverse nodes; each internode usually
with two internodal septa, one opposite the intrathecal septum and one opposite
the base of the lateral nematotheca.

Hydrotheca sac-shaped, with a complete intrathecal septum at about
é of height, 0,18-0,2 mm in abcauline height and 0,13-0,16 mm in marginal
diameter. Margin forming an angle of 55—60° with internode; with five distinct
marginal teeth, one median inturned abcauline and two triangular laterals on
each side of it, adcauline half of margin straight or sinuated.

alo)

ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 139.

Scale: A and D in cm, the rest in mm/10.

J
S iH)

KCK
S Wf I) CU ia
SS Ue Gh (/}; YW; Uff LR KC |

LP

456

Thecocarpus brevirostris. A, stems; B, corbula (openings into interior shaded); C, distal and

proximal regions of hydrocladium.
Thecocarpus delicatulus. D, stem; E, hydrocladium.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 457

Median inferior nematotheca adnate to abcauline thecal wall to just below
origin of marginal teeth, then free; reaching approximately to tips of marginal
teeth; with an aperture extending all the way along upper surface of free part
and another into hydrotheca. Lateral-nematotheca tubular, curved, reaching
just beyond level of thecal margin, with one distal aperture extending also along
mesial surface.

Corbula (not reported from South Africa) replacing hydrocladium, con-
sisting of a pedicel of one thecate segment followed by about ten segments
bearing alternate ribs. Corbula open and ribs quite free. Each rib with one
hydrotheca near base subtended by a pair of lateral nematothecae and followed
by a double series of alternate nematothecae.

Variation. In the younger (distal) parts of the hydrocladia the more proximal of
the two internodal septa tends to disappear. The adcauline half of the thecal
margin may be quite straight or a distinct rounded lobe may be present.

Distribution outside South Africa. Tropical Indo-Pacific, from the east coast of
Africa to Queensland. Type locality: Torres Strait in 16 m.

Distribution in South Africa. Santa Carolina in Mocambique, only. 21/35

Thecocarpus flexuosus (Lamouroux, 1816)

Figs. 140-141

Aglaophenia flexuosa Lamouroux, 1816: 167.
Thecocarpus filexuosus: Millard, 1962: 312, fig. 12.

Diagnosis. Stem fascicled and branching irregularly, generally thick and woody
at base. Branches unfascicled or lightly fascicled, in the form of a scorpioid
sympodium, the whole twisted in a spiral manner and with each successive
podium arising from the anterior surface of the one before and facing towards it.
Each podium typically divisible into a basal part divided into internodes
bearing one large median nematotheca each, and a distal part, continued to end
of branch and divided into internodes bearing one hydrocladium and three
nematothecae each. Nodes transverse or slightly oblique. Nematothecae of
hydrocladium-bearing segment including one axillary anterior, one axillary
posterior and one inferior anterior. A mamelon present on anterior surface of
hydrocladial apophysis. Hydrocladia alternate, the two rows not in one plane
but shifted onto anterior surface.

Hydrocladium bearing hydrothecae on anterior surface, consisting of
thecate internodes separated by slightly oblique nodes. Internodes typically
with two septa.

Hydrotheca sac-shaped, expanding to margin, with an adcauline intrathecal
septum near base, 0,2—0,4 mm in abcauline height and 0,14-0,2 mm in marginal
diameter. Margin forming an angle of 50-70° with internode; with nine marginal
teeth, one median abcauline and four pairs laterals, some of which may be

458 ANNALS OF THE SOUTH AFRICAN MUSEUM

bifid; median abcauline tooth sometimes double with an internal and an
external point.

Median inferior nematotheca short, adnate to abcauline thecal wall to
approximately level of intrathecal septum, then free; never reaching level of
thecal margin; with one aperture extending along upper surface of free part; no
Opening into hydrotheca. Lateral nematotheca tubular, reaching to thecal
margin, with one aperture. Cauline nematothecae sac-shaped, with three to six
apertures.

Corbula with a pedicel of one to seven hydrotheca-bearing segments
followed by segments bearing alternate paired ribs. Each rib bearing a series of
nematothecae along outer edge, a hydrotheca near the base and a crested process
of variable length proximal to the hydrotheca. Corbula closed, with inner edge
of each rib fused to the rib behind. Proximal side of first rib with a rounded
projection facing towards pedicel.

KEY TO SUBSPECIES

[Subspecies not represented in South Africa are bracketed]
1. Sympodial branches with umbel-like appearance: first podium long, subsequent ones

short and forming a close spiral .. ne .. TT. f. umbellatus
— Sympodial branches not umbel-like: all podia of approximately the same length and
forming a loose or tight, but regular, spiral - a i Be = 0 ie
2. Abcauline thecal tooth simple, with no outer point a aS 3. ff. fi plamifents
— Abcauline thecal tooth double, with an inner and an outer point
3. Outer point of abcauline thecal tooth normally solid... - oe T. f. solidus
— Outer point of abcauline thecal tooth normally hollow ae ae BE shot at

4. Median nematotheca often bifurcated, lateral nematotheca with two openings
[T. f. perarmatus|
— Median nematotheca not bifurcated, lateral nematotheca with one opening 7. f. flexuosus

Thecocarpus flexuosus flexuosus (Lamouroux, 1816)
Fig. 140A—C

Aglaophenia flexuosa Lamouroux, 1816: 167.
Thecocarpus giardi: Billard, 1907a: 381, fig. 21, pl. 25 (fig. 9), pl. 26 (figs 11-16). Vervoort,
19466: 335. Millard, 1957: 240. Millard, 1958: 221, fig. 16A.
Thecocarpus flexuosus: Billard, 1909: 330. Redier, 1967: 406.
?Aglaophenia bifida Stechow, 1923b: 117. Stechow, 1925a: 515, fig. 53.
Thecocarpus flexuosus flexuosus: Millard, 1962: 315, fig. 12A, J-L.
Diagnosis. Colony reaching 238 mm. Sympodium geniculate and twisted in a
spiral which may be tight or loose. Podia of approximately equal length, with
no regular hinge-joints. Hydrocladia usually short and about 6 mm in length.
Hydrothecal margin with the two most abcauline lateral teeth typically
bifid; median abcauline tooth double, with the outer point hollow and longer
than the inner.
Corbula reaching 7 mm and bearing up to 13 pairs ribs. Crested processes
of ribs sometimes produced and bearing nematothecae.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA

Ma
WX wT
COU WQa]iVwwx,”
| I QY WT || LE
My, Xi
=< Vi

Z

a 4
fi (- EE
WZ
=e
" ZINE i
= GZ
RSS os = -
—
—= =
\ =
— SJ
| SS
Ss
~

Fig. 140.

Thecocarpus flexuosus flexuosus. A, part of stem including one spirally twisted sympodial
branch; B, hydrothecae; C, corbula.

Thecocarpus flexuosus solidus. D, hydrothecae.

Scale: A in cm, the rest in mm/10.

460 ANNALS OF THE SOUTH AFRICAN MUSEUM

Distribution outside South Africa. Madagascar. Type locality: East Indies.

Distribution in South Africa. False Bay to Mocgambique in 5 to 100 m. 34/18 (s),
235/20 (d), 34/21 (s), 34/23 (s), 33/28 (s), 30/30 (s), 29/31 (Ss), 28/32 (d), 24/34 (s)

Thecocarpus flexuosus plumiferus (Kirchenpauer, 1872)
Fig. 141B, D

Aglaophenia plumifera Kirchenpauer, 1872: 31, pl. 1 (fig. 6), pl. 3 (fig. 6). Stechow, 1923c:
1
iff eee pee plumiferus: Millard, 1962: 313, fig. 12C—D.
Diagnosis. Colony reaching 460 mm. Sympodium of branch not obviously
geniculate, twisted in a spiral which may be tight or loose. Podia of approxi-
mately equal length, usually with hinge-joints separating basal and distal parts
and situated distal to origin of next podium. Hydrocladia short, 3-6 mm in
length.
Marginal teeth of hydrotheca not bifid; median abcauline tooth simple,
with no outer point, though abcauline wall somewhat thickened near margin.
Corbula sometimes very long, reaching 20 mm and bearing up to 39 pairs
ribs.

Variation. Occasional hydrothecae show the beginnings of an outer point on the
abcauline thecal tooth, thus tending towards subsp. solidus, but this secondary
point never equals the abcauline tooth in length.

Distribution. Endemic to South Africa. Type locality: Algoa Bay.

Distribution in South Africa. Agulhas Bank from off Still Bay to off East London
in 50 to 104 m. 34/21 (s), 33/35, 33/26 (d), 33/27 (s), 32/28 (s)

Thecocarpus flexuosus solidus (Millard, 1958)

Fig. 140D

Thecocarpus giardi var. solidus Millard 1958: 222, fig 16B-C.
Thecocarpus flexuosus solidus: Millard, 1962: 316, fig. 12E-H.
Diagnosis. Colony reaching 550 mm, very similar in appearance to subsp.
flexuosus. Sympodium of branch more or less geniculate, twisted in a spiral
which may be tight or loose. Podia of approximately equal length, usually with
one or two hinge-joints separating basal and distal parts and situated proximal
or distal to origin of next podium. Hydrocladium short, about 6 mm in length.
Marginal teeth of hydrotheca not bifid; median abcauline tooth double,
with outer point forming a solid spine and longer than the inner.
Corbula reaching 5 mm in length and bearing up to 16 pairs ribs.

Variation. Rarely the outer point of an abcauline thecal tooth may be hollow,
resembling subsp. flexuosus, and rarely the outer point may be poorly developed,
resembling subsp. plumiferus.

Examples have been seen of a double corbula, in which the pedicel bifurcates
in the fifth segment, and also of branching hydrocladia.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 461

Distribution. Endemic to South Africa. Type locality: off Natal, 28°28’S/
32°25, E, 2) i.

Distribution in South Africa. Agulhas Bank off Still Bay to Mocambique in 18
to 110 m. 35/21 (d), 33/26 (s), 33/27 (s), 33/28 (s), 32/28 (s), 30/30 (s), 30/31 (s),
29/31 (s), 29/32 (s), 28/32 (s), 25/33 (s), 24/35 (d)

Thecocarpus flexuosus umbellatus Millard, 1962
Fig. 141A, C

Thecocarpus flexuosus: Millard, 1961: 208 (specimen 1899.7.1.6093 only, others too fragmen-

tary to establish subspecies).
Thecocarpus flexuosus umbellatus Millard, 1962: 316, fig. 12B, M.
Diagnosis. Colony reaching 138 mm. Branches like an umbel in appearance,
sympodium formed from one long podium followed by several very short ones
(usually five in all), the whole spirally twisted. Two hinge-joints present in first
podium, separating basal and distal parts. ‘Umbels’ breaking easily at hinge-
joints and commonly occurring separately in dredges. Podia other than the
first with no hinge-joints and no basal part. Hydrocladia long, reaching 15 mm.

Marginal teeth of hydrotheca not bifid; median abcauline tooth double,
with outer point hollow and longer than inner.

Corbula reaching 12 mm and bearing up to 20 pairs ribs. Terminal parts of
ribs and their crested processes sometimes produced to give a spidery
appearance.

Variation. Although the first podium is always the longest, subsequent ones are
occasionally longer than normal, so tending towards subspecies flexuosus.

Distribution. Endemic to South Africa. Type locality: Agulhas Bank, 32°15,2’S/
28°57,7'E, 49,5 m.

Distribution in South Africa. Agulhas Bank, from off Still Bay to off East London
in 18 to 120 m. 34/21 (s), 33/25 (s), 34/25 (s, d), 33/26 (d), 34/26 (d), 33/27 (s),
32/28 (s)

Thecocarpus formosus (Busk, 1851)

Fig. 138D-G

Plumularia formosa Busk, 1851: 118.
Aglaophenia formosa: Marktanner-Turneretscher, 1890: 264, pl. 6 (fig. 11).
Thecocarpus formosus: Billard, 1907a: 378, figs 19-20. Vervoort, 19465: 332, fig. 7. Millard,

1958: 221. Rees & Thursfield, 1965: 184.
Aglaophenia parasitica Warren, 1908: 332, fig. 17, pl. 48 (figs 28-32).
Diagnosis. Stem unfascicled, unbranched, reaching a maximum height of 240
mm, with one to three hinge-joints separating a short basal part from a distal
part bearing alternate hydrocladia. Distal part divided into short, broad inter-
nodes by transverse or oblique nodes sloping in alternate directions. Each inter-
node bearing one hydrocladial apophysis and three nematothecae, one inferior
anterior, one axillary anterior and one axillary posterior. Mamelon present on

462 ANNALS OF THE SOUTH AFRICAN MUSEUM

\\ \\ \\V\ 44) YD
| | i| / SF> i
| | y yj Z "
EA | / N
\ |
— \ —<—==_ SAVY i
VFO tw, Pe
i SZ Z :
NS (WA
\ Y
X
\ if LZ
A u)
A.D
}
4
O yy
co p
7 yz

Fig. 141.

Thecocarpus flexuosus umbellatus. A, a sympodial branch; C, hydrothecae.
Thecocarpus flexuosus plumiferus. B, hydrothecae; D, a sympodial branch bearing corbulae.
Scale: A and D in cm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 463

anterior surface of apophysis. The two rows of hydrocladia not in one plane,
but displaced onto the anterior surface.

Hydrocladium bearing close-set hydrothecae on anterior surface, consisting
of thecate internodes separated by transverse or slightly oblique nodes. Inter-
nodes with or without an internodal septum across central region, last internode
with an extra median nematotheca and terminating in a blunt spine.

Hydrotheca sac-shaped, with an adcauline intrathecal septum, 0,2-0,3 mm
in abcauline height and 0,13-0,19 mm in marginal diameter. Margin forming
an angle of about 60° with internode; with seven marginal teeth, one median
inturned abcauline and three pairs double laterals, each with an internally and
an externally directed point, the external point of the most adcauline tooth
the largest; with a long, hollow spine arising from the abcauline surface below
the median abcauline tooth and curving distally.

Median inferior nematotheca adnate to abcauline thecal wall as far as the
median spine, then free; not quite reaching thecal margin; with an aperture
extending all the way along upper surface of free part and sometimes a second
opening into hydrotheca. Lateral nematotheca tubular, reaching approximately
to level of thecal margin, with one distal aperture extending also along mesial
surface. Cauline nematothecae gutter-shaped.

Corbula with a pedicel of two to five hydrotheca-bearing segments followed
by segments bearing alternate paired ribs. Each rib bearing a series of long
tubular nematothecae along outer edge, and with inner edge fused to the rib
behind. Each rib with a free lateral branch close to proximal end bearing nema-
tothecae on both edges. A hydrotheca seated in axil of lateral branch. Corbula
reaching 3-11 mm in length. Female corbula with ribs very firmly attached;
each rib with proximal branch well developed and sometimes equal to it in
length, often with one or two extra lateral branches distal to hydrotheca.
Male corbula usually longer and thinner than female and with distal parts of
ribs only partly attached; each rib with a proximal lateral branch only, which is
poorly developed and bears at most two or three pairs nematothecae.

Colour: reddish brown.

Variation. The hydrorhiza of this species has the ability to produce suckers
which act as holdfasts. Since the suckers can penetrate into pebbles, barnacle-
Shells and coralline algae (a common host), they must produce some calcium-
dissolving substance. It has been shown by Warren (1908) that they can also
penetrate into the cells of the host algae where they possibly obtain nourishment.

The size of the hydrotheca varies along the length of a hydrocladium,
tending to be smaller near the proximal end and with a shorter median inferior
nematotheca. The change in length in the median spine is most marked; its
length being approximately 0,03 mm at the proximal end, increasing gradually
to as much as 0,3 mm at about five internodes from the distal end, then becoming
shorter again.

Distribution outside South Africa. Ceylon, Torres Strait (Australia) and

464 ANNALS OF THE SOUTH AFRICAN MUSEUM

Mediterranean, with doubtful records from Labrador and New Zealand.

Distribution in South Africa. Common‘all round the south and east coasts from
off Still Bay to Richard’s Bay, littoral to 90 m. One record from South West
Africa. Type locality: Algoa Bay. 34/21 (s), 34/22 (s), 34/23 (s), 33/25 (s), 34/25
(s), 33/26 (s), 33/27 (, s), 32/28 (1, s), 32/29 (s), 31/29 C, s), 31/30 Cd), 30/30 (s);
29/31 (1, s), 28/32 (s)

SUBORDER: LIMNOMEDUSAE

Diagnosis. Hydranth usually small, sessile and solitary, but with powers of
asexual reproduction; with no definite hydrotheca or gonotheca; with or without
a few tentacles; producing medusae. Medusa with gonads either on stomach or
on radial canals; with hollow marginal tentacles usually without marginal
bulbs; with or without endodermal statocysts.

KEY TO FAMILIES
[Families not treated in this monograph are bracketed]
1. Medusa with gonads on radial canals only; with statocysts but without ocelli [OLINDIIDAE]

Medusa with gonads on stomach, but often extending along radial canals as well... 2
2. Medusa generally with branched radial canals; without statocysts and without

ocelli. Hydranth with not more than 2 tentacles .. Be PROBOSCIDACTYLIDAE Pp. 467

Medusa with unbranched radial canals... oe S45 a eS

3. Medusa without statocysts but with ocelli. Hydranth with more than 2 tentacles
MOERISIIDAE p. 464
— Medusa with statocysts but without ocelli. Hydranth without tentacles [LIMNOCNIDIDAE]

Family Moerisiidae

Diagnosis. Hydranths small and athecate, normally solitary, with more than
two capitate or moniliform tentacles, with conical hypostome. Perisarc poorly
developed, never reaching to tentacular region. Asexual reproduction possible
by budding, transverse fission or stolonization.. Producing medusa-buds on
hydranth body.

Medusa with four unbranched radial canals, at least four hollow marginal
tentacles, usually no statocysts, abaxial ocelli on marginal bulbs, quadrangular
stomach. Gonads on stomach wall and on radial lobes of stomach extending
outwards along radial canals.

Nematocysts of three kinds, always including stenoteles and desmonemes.

Mostly brack-water forms.

Introduction. The family Moerisiidae contains a number of relatively rare forms
known from brackish waters in various parts of the world. One or two forms
can also exist in the sea. There are in total only five genera and nine species.
The species are known best by their medusae, which are of moderate size. The
hydranth generation is relatively inconspicuous and is known in six species. It
lives attached to water-weeds, grass, sand-grains, etc., and though essentially
solitary, possesses the power of asexual reproduction.

The hydranth is athecate; the tentacles are scattered on the distal part of the

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 465

body or arranged in one or two rough whorls and are moniliform or capitate.
Medusa-buds are borne on the hydranth body, either amongst or below the
tentacles. A poorly developed perisarc occurs, which surrounds the stolons when
present (see below), may continue for a short distance over the hydranth body
and in some species forms thickened PEDAL Discs for attachment.

Asexual reproduction may occur in several ways.

(i) By transverse fission (‘decapitation’), described for Moerisia lyonsi.

(ii) By production of lateral buds, usually immediately below the tentacles. The
buds separate off, produce tentacles and develop into new hydranths. Occa-
sionally a bud may fail to separate and develops a hydranth in situ.

(iii) By stolonization. The base of the hydranth produces slender, branching
stolons which give rise to new hydranths which sooner or later separate off
from the parent body.

(iv) In some species the basal discs, which contain an extension of the body wall,
act as resting stages (PODOCYSTS) and can survive the death of the hydranth
to regenerate later. They can also divide, each daughter podocyst producing a
hydranth.

Unlike most hydroids both hydranth and medusa possess hollow tentacles,
their cavities communicating directly with the coelenteron.

The medusa is peculiar in the cruciform shape of its stomach, of which four
lobes spread outwards along the radial canals. The gonads develop on the
stomach wall and on its radial lobes, sometimes almost reaching the margin of
the bell. The reddish ocelli on the marginal bulbs are a prominent feature.

Kramp, in various papers, includes the Moerisiidae, together with the
Olindiidae, Limnocnididae and Proboscidactylidae, in the order Limnomedusae,
mainly on the basis of the hollow tentacles and the quadrate nature of the
stomach in the medusa. The Olindiidae and Limnocnididae have internal
statocysts but there is some doubt as to their presence in the Moerisiidae. Kramp
claims to have found microscopic statocysts in Ostroumovia, a claim which,
however, is rejected by Valkanov (1954).

Rees (1958) on the other hand, places the Moerisiidae among the capitate
Athecata, where he creates a superfamily, Moerisioidea, for their reception.
He claims that they have many features in common with the lower Cory-
morphines, including the nematocyst types. All Moerisiidae have three types
of nematocysts: stenoteles, desmonemes and a third type which is variable:
isorhizas in Ostroumovia inkermanica, atrichous isorhizas in Moerisia lyonsi,
basitrichous isorhizas in Ostromouvia horii, anisorhizas in Ostroumovia gemmata
and microbasic euryteles in Odessia maeotica.

KEY TO GENERA

[Genera not represented in South Africa are bracketed]

1. Hydranth tentacles capitate and with adaxial batteries of nematocysts. Fixation by
pedal disc. Medusa tentacles with irregular transverse batteries of nematocysts
[Odessia]
— Hydranth and medusa tentacles moniliform, with complete rings of nematocysts along
the whole length aa ies :

466 ANNALS OF THE SOUTH AFRICAN MUSEUM

2. Fixation of hydranth by pedal discs. Medusa tentacles with basal part adnate to
exumbrella.. i: oh ae ie “ss sh bye OSTROUMOVIA, p. 466

— Hydranth without pedal discs, loosely attached by thin perisarcal covering of hydro-
rhiza. Medusa tentacles with globular bulbs, not clasping over exumbrella [MOERISIA ]

Genus Ostroumovia HadZi, 1928

Diagnosis. Hydranth with moniliform tentacles armed with rings of nematocysts
along whole length; tentacles irregularly arranged or in one more or less distinct
whorl. Fixation by one or more perisarcal pedal discs. Asexual reproduction by
podocysts, by budding from hydranth body, or by stolonization. Perisarc
continued as a thin, gelatinous layer over stolons and to a varying extent over
basal part of hydranth. Medusa-buds borne on body of hydranth amongst the
tentacles.

Adult medusa without peduncle, with cruciform mouth without distinct
lips, smooth gonads. Tentacles armed with annular rings of nematocysts
throughout length, with basal part adnate to exumbrella.

Type species: Moerisia inkermanica Paltschikowa-Ostroumowa, 1925.

One species from South Africa.

Ostroumovyia inkermanica (Paltschikowa-Ostroumowa, 1925)

Fig. 142A-G

Moerisia inkermanica Paltschikowa-Ostroumowa, 1925: 273, figs 1-3.

Ostroumovia inkermanica: Valkanov, 1938: 315 (German summary), various figs. Valkanov,
1950: 187, figs 1-3. Valkanov, 1954: 45 (German summary), various figs. Kramp, 1961:
216. Rees & Thursfield, 1965: 38. Kramp, 1968: 103, fig. 280. Millard, 1970: 275, fig. 1.

Diagnosis. Hydranth attached to substratum by one or more perisarcal pedal
discs, slender at base and widening to tentacular region, reaching about 3 mm
in height, with 4-12 tentacles in one whorl or in two roughly alternating whorls.
Asexual reproduction possible by lateral buds arising from the hydranth just
below the tentacles or by stolonization from the base. A delicate, gelatinous
perisarcal sheath with adhering silt covering stolons and basal part of hydranth
body.

Newly liberated medusa with four tentacles. Adult medusa hemispherical,
reaching 8 mm in diameter and 6 mm in height, with very thick jelly, very small
stomach, 32 marginal tentacles. Gonads extending along radial lobes of stomach
nearly to bell margin, with distal parts sac-like, pendent (from Kramp).

Nematocysts of three types:

(i) Stenoteles, 9,0 x 6,3 — 13,1 x 10,8 uz.

(ii) Desmonemes, 5,9 < 2,7 — 8,1 xX 4,1 pu.

(iii) A third type, probably isorhizas, present only on the hypostome of the
hydranth, with elongated capsules, 8,1 x 2,7 — 9,9 x 2,7 nu.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 467

Variation. Variation in appearance of the polyp generation occurs as a result
of asexual reproduction. The hydranth may be solitary with a single pedal disc
at the base, or stolonization at or near the base may result in a branching hydro-
rhiza with four or more pedal discs. Some of the stolons may taper off into very
fine filaments. In at least one case a new hydranth has remained attached to the
same hydrorhiza as the parent. Lateral buds occur on the hydranth body. These
are said to separate from the parent and give rise to new hydranths though
this has not been observed in this material. The pedal discs (podocysts) have the
power to divide and to regenerate after the death of the hydranth. Again this
has not been observed in South Africa.

The development of the perisarcal sheath varies among individuals and
may be hardly visible on the body of the hydranth or may reach about half-way
up its length.

Half-grown medusae (1,7 < 1,7 mm) have been found together with
the hydranths in Kosi Bay, and mature medusae (4,4 x 3,4 mm) with 16-28
tentacles in Lake St. Lucia. The known salinity range in South Africa to date is
3-10,8°/o.

Remarks. Rees & Thursfield (1965) have included Annulella gemmata Ritchie,
1915, from India and eastern Spain, as a synonym of O. inkermanica. However,
there appears to be a difference in nematocysts; Ritchie reports anisorhizas in
gemmata and Valkanov ‘glutinants’, or isorhizas, in inkermanica. It was not
possible to classify exactly the third nematocyst type in the present material.

Calder & Burrell (1969) suggest that moerisiid hydroids are distributed by
shipping, but it is hardly possible that O. inkermanica could have been intro-
duced in this way into South African lakes which are not navigable by ocean-
going vessels.

Distribution outside South Africa. Black Sea (type locality), India, France,
Netherlands.

Distribution in South Africa. Brack-water lakes: Nhlange Lake (Kosi Bay),
Lake St. Lucia and Lagoa Poelela on the east coast. Hydranths in 2-16 m,
medusae in plankton. 27/32 (s)

Family Proboscidactylidae

Diagnosis. Small athecate hydroids forming stolonial colonies commensal on
the tubes of sabellid polychaets. Perisarc totally absent. Hydranths of two types:
gastrozooids and gonozooids. Gastrozooids with two filiform tentacles and a
prominent hypostome bearing a pad of large nematocysts. Gonozooids without
mouth or tentacles, bearing gonophores which develop into free medusae.

Medusa with 4-6 or more radial canals which are generally branched,
usually with tentacles, without statocysts or ocelli, stomach with 4-6 or more
lobes extending along the proximal parts of the radial canals. Gonads on stomach
wall.

468 ANNALS OF THE SOUTH AFRICAN MUSEUM

~-medusa
bud

lateral
bud

Fig. 142.

Ostroumovia inkermanica. A—C, medusae, mature (B) and young stages (A and C):
D-G, hydranths.
Proboscidactyla sp. H, gastrozooid; J, sterile gonozooid; K, fertile gonozooid with medusa-
buds; L, older medusa-bud.
Scale: A-C in mm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 469

Nematocysts of three kinds: macrobasic euryteles, microbasic euryteles
and desmonemes.

Introduction. This family includes only two genera, Proboscidactyla and Pochella,
of which the polyp generation is known only in the former. The diagnosis is
thus based on this genus and may require modification to include Pochella
when its life-history has been traced.

The hydranths of Proboscidactyla are, in those species where they are
known, very similar to one another and cannot with any certainty be dis-
tinguished without knowledge of the medusa. Radiation has occurred in the
medusa phase and any keys must be based on medusa characters. In this genus
the medusa is distinguished by special sacs or CNIDOPHORES on the umbrella
margin between the tentacles, containing about five large nematocysts. These
are easily visible in medusa-buds still attached to the hydranth.

The life-history has been worked out for five species:

P. circumsabella Hand, 1954, by Hand;

P. flavicirrata Brandt, 1835, by Uchida & Okuda (1941) and by Hand (1954);

P. occidentalis (Fewkes, 1889), by Hand (1954);

P. ornata (McCrady, 1857), by Brinckmann & Vannucci (1965) and by Calder
(19706);

P. stellata (Forbes, 1846) by Hincks (1872) and by Browne (1896). The hydranth
of this species was originally described as Lar sabellarum by Gosse (1857)—
the posturing polyp of the British coasts.

In all of these the two-tentacled gastrozooids are arranged in a rank around
the rim of the tube of the polychaet host with their tentacles towards the cavity
and the asymmetrically placed pad of nematocysts on the hypostome away from
it. In life they are very active and perform bowing and waving movements, they
have also been seen to stroke the crown of the polychaet with their tentacles
as though salvaging food particles. When the worms spawn the eggs are
consumed in quantities by the hydranths.

Gonozooids are situated below the gastrozooids and often arise from their
bases by small ‘tails’. They may form a distinct ring or be scattered for some
distance down the tube. The lowest gonozooids are usually smaller and sterile.
The upper ones produce up to 12 medusa-buds at about 2 the height of the body.

Experimental work (Strickland 1971) has shown that the hydroids cannot
survive without their host polychaets and nor can the planulae develop. They
are thus true obligatory commensals.

In at least some species (e.g. P. ornata) the medusa can reproduce asexually
by budding either medusae or polyps from stolons which arise from the stomach
or radial canals. The medusae do not occur in mid-ocean but frequent coastal
areas and bays, habitats where the host polychaets commonly occur. In one
species, P. abyssicola (hydranth unknown) the medusa has no marginal tentacles.

Nematocysts are very similar from species to species, differing only in small
details of size and shape. In all, the same three types occur, macrobasic eury-

470 ANNALS OF THE SOUTH AFRICAN MUSEUM

teles, microbasic euryteles and desmonemes, though the microbasic euryteles
are absent from the medusae. The hydranth tentacles are remarkably poor in
nematocysts, possessing only microbasic euryteles, but all three types are pre-
sent in the nematocyst pads on the hypostome of the gastrozooid and on the
gonozooid. The largest type, the macrobasic eurytele, is very striking and
abundant.

KEY TO GENERA
[Genera not represented in South Africa are bracketed]

1. Medusa without cnidophores. Gonads on interradial walls of stomach only [Pochella]
— Medusa with cnidophores between the tentacles. Gonads extending on to radial
lobes of stomach uss a: A ie ay: ie .. Proboscidactyla p. 470

Genus Proboscidactyla Brandt, 1835

Fig. 142H-L
Syn. Lar Gosse, 1857.
Willia Forbes, 1846.

Diagnosis. Hydranth as for family.

Adult medusa with 4-6 or more branched radial canals, usually with
many marginal tentacles corresponding in number to the radial canals, rarely
without; usually without an open circular canal; with cnidophores on the
exumbrella margin between the tentacles. Gonads surrounding stomach
and extending onto its radial lobes.

Type species: Proboscidactyla flavicirrata Brandt, 1835.

Remarks. Hydranths of Proboscidactyla have been found at Inhaca, Mocam-
bique, commensal on tubes of the polychaet Laonome (Millard & Bouillon
1974), but since the medusae have not been reared it is not possible to identify
the species.

Medusae of P. ornata (McCrady, 1857), a circumglobal species, have been
found at Mombasa on the tropical east coast of Africa (Kramp 1965) and of
P. mutabilis (Browne, 1902) from Saldanha Bay on the west coast of the Cape
(University of Cape Town unpublished records, W. J. Rees det.).

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 47]

LIST OF SPECIES AND AUTHORITIES FOR PREVIOUS SOUTH
AFRICAN RECORDS

* new species,
+ new record from South Africa

ATHECATA
Family Corymorphidae

Branchiocerianthus imperator. Vervoort 19666
Corymorpha sp. Millard 1959a

Family Tubulariidae

Ectopleura bethae. Millard & Bouillon 1974
As Tubularia betheris. Warren 1908
+Hybocodon unicus
Tubularia crocea. Broch 1914. (Doubtful species)
Tubularia larynx. Stechow 1925a. Millard 19595
Tubularia warreni. Ewer 1953. Millard 1959a, 19596, 1966a
?As Tubularia sertularellae. Stechow 1923b
Zyzzyzus solitarius. Millard & Bouillon 1974
As Tubularia solitaria. Warren 19066. Millard 1957, 1966a

Family Halocordylidae

Halocordyle disticha. Millard & Bouillon 1974
As Halocordyle cooperi. Warren 1906a, 19076
As Pennaria australis var. cooperi. Warren 1908
As Halocordyle disticha var. australis. Vervoort 19466
As Pennaria disticha var. australis. Millard 1959a

Family Myriothelidae
Monocoryne minor. Millard 1966a
Mpyriothela capensis. Manton 1940. Millard 1957, 1966a
Mpriothela tentaculata. Millard 1966a

Family Corynidae
Bicorona elegans. Millard 1966a
Coryne pusilla. Warren 1908. ?Millard & Bouillon 1974.
Sarsia eximia. Millard 19596, 1966a
As Coryne sp. Millard 1957.
Sphaerocoryne bedoti. Millard & Bouillon 1974.
As Clavatella multitentaculata. Warren 1908.

Family Cladonemidae

Staurocladia vallentini. Millard 1966a
As Cnidonema capensis. Gilchrist 1919

Family Solanderiidae

Solanderia atrorubens. (Doubtful species)

As Dehitella atrorubens. Brazier 1887
Solanderia labyrinthica. (Doubtful species)

As Ceratella labyrinthica. Hyatt 1877
Solanderia minima. Millard & Bouillon 1974
Solanderia procumbens. Millard 1966a

As Ceratella procumbens. Carter 1873

As Ceratella spinosa. Carter 1873

As Solanderia atrorubens. Marshall 1892
Solanderia rugosa. Marshall 1892. (Doubtful species)

Family Asyncorynidae
Asyncoryne ryniensis. Warren 1908

472 ANNALS OF THE SOUTH AFRICAN MUSEUM

Family Cladocorynidae
Cladocoryne floccosa. Warren 1908. Millard 1959a. Millard & Bouillon 1974

Family Zancleidae
Zanclea sp. Millard & Bouillon 1974

Family Clavidae
Clava sp. Millard 1966a
Corydendrium parasiticum. Millard 1959a. Millard & Bouillon 1974
Merona cornucopiae. Millard 1966a

Rhizogeton nudum. Millard & Bouillon 1974

Turritopsis nutricula. Millard & Bouillon 1974

Family Eudendriidae

Eudendrium angustum. Warren 1908
Eudendrium %antarcticum. Stechow 1925a. Millard 1957
Eudendrium capillare. Millard & Bouillon 1974
As Eudendrium parvum. Warren 1908
As Eudendrium ?parvum. Millard 1959a
Eudendrium carneum. Millard 1959a
Eudendrium deciduum. Millard 1957, 1966a
Eudendrium motzkossowskae. Millard & Bouillon 1974
Eudendrium ramosum. Millard 1966a. Millard & Bouillon 1974
As Eudendrium ?capillare. Millard 1966a
* Fudendrium ritchiei sp. nov.
As Eudendrium annulatum (?). Ritchie 1909
As Eudendrium ?carneum. Millard 1966a

Family Bougainvilliidae

Bimeria fluminalis. Millard 1959a
Bimeria rigida. Warren 1919a
Bimeria vestita. Millard 1966a, 1968

As Leuckartiara vestita f. nana. Vervoort 19466
Bougainvillia macloviana. Jaderholm 1923a. Millard 1959b, 1966a
Bougainvillia meinertiae. Jaderholm 1923a
Bougainvillia ?ramosa. Stechow 1925a. Millard 1959b

As Bougainvillia sp. Millard 1966a, 1968
Clavopsella navis

As Rhizorhagium navis. Millard 1959b
Dicoryne conferta. Millard 1966a
Rhizorhagium robustum. Millard 1966a

As Parawrightia robusta. Warren 1907a

Family Hydractiniidae

*Clavactinia multitentaculata sp. nov.

As Hydractinia sp. Millard 1968
Aydractinia altispina. Millard 1955, 1957, 1966a

2As Hydractinia sp. Broch 1914
Hydractinia canalifera. Millard 1957
Hydractinia diogenes. Millard 1959a. Millard & Bouillon 1974
Hydractinia kaffraria. Millard 1955, 1959a, 1966a
* Hydractinia marsupialia sp. nov.

As Podocoryne carnea. Ritchie 19076. Millard 1966a

2As Hydractinia parvispina. Vanhoffen 1910

As Hydractinia carnea. Millard 1957
Hydractinia pacifica. Stechow 1925a. (Doubtful record)
Hydrocorella africana. Stechow 1921c, 1923b, 1925a. Millard 1957, 1966a. 1968
?Stylactis siphonis. (Doubtful species)

As Stylactella siphonis. Stechow 19216

As Halerella siphonis. Stechow 1925a

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 473

Family Cytaeidae

Cytaeis nassa. Millard & Bouillon 1974
As Podocoryne nassa. Millard 1959a

Family, Pandeidae

Hydrichthys boycei. Warren 1916. Millard 1959a
Leuckartiara octona. Millard 1957. Millard 1966a
As Perigonimus vestitus f. radicans. Vanhoffen 1910.

THECATA
Family Campanulinidae

Aequorea africana. Millard 1966a. Millard & Bouillon 1974
Calicella oligista. Stechow 1925a

Egmundella amirantensis. Millard & Bouillon 1974
*Tineolaria gravierae sp. nov.

As Lineolaria sp. Millard & Bouillon 1974
Lovenella chiquitita. Millard 1957, 1959b, 1966a, 1968
Modeeria rotunda

As Stegopoma fastigiata. Millard 1958

As Stegopoma fastigiatum. Millard 1967, 1968
Opercularella sp. Vervoort 19666
Phialella turrita

As Campanulina turrita. Vanhoffen 1910

Family Haleciidae

Halecium beanii. Stechow 1925a. Millard 1957, 1958, 1966a, 1968. Vervoort 19665
Halecium delicatulum. Hartlaub 1905. Millard 1966a, 1968
As Halecium parvulum, including var. magnum. Millard 1957
Halecium dichotomum. Allman 1888. Stechow 1925a. Millard 1957, 1966a, 1968
+ Halecium dyssymetrum
Halecium halecinum. Ritchie 1907b. Millard 1966a. Millard & Bouillon 1974
Halecium inhacae. Millard 1958. Millard & Bouillon 1974
Halecium lankesteri. Millard 1968. Millard & Bouillon 1974
Halecium ?muricatum. Millard 1966a, 1968
Halecium sessile. Vervoort 19666
Halecium tenellum. Stechow 1925a. Millard 1957, 1966a, 1968. Vervoort 1966b. Millard &
Bouillon 1974
Hydrodendron caciniformis. Millard 1957
Hydrodendron cornucopia. Millard 1973
As Zygophylax cornucopia. Millard 1955, 1957, 1964, 1968
Hydrodendron gardineri. Millard & Bouillon 1974
Hydrodendron gracilis. Millard 1973
As Zygophylax enigmatica. Millard 1964
Hydrodendron sympodiformis. Millard & Bouillon 1974

Family Lafoeidae

Acryptolaria conferta. Millard 1968

As Acryptolaria conferta conferta. Millard 1964

As Acryptolaria conferta australis. Millard 1964, 1967
Acryptolaria rectangularis. Millard 1967, 1968

As Acryptolaria angulata. Vervoort 19666
+ Cryptolarella abyssicola
+ Cryptolaria pectinata
Filellum antarcticum. ?Stechow 1925b. Millard 1964 (pp)
Filellum ?serpens. Stechow 1925a

As Reticularia serpens. Millard 1957.
Filellum serratum. Millard 1967, 1968

As Filellum ?antarcticum. Millard 1958, 1964 (pp)

474 ANNALS OF THE SOUTH AFRICAN MUSEUM

Hebella dispolians
As Lafoea dispolians. Warren 1909.
Hebella furax. Millard 1957, 1964. Millard & Bouillon 1974.
Hebella parvula. Stechow 19235.
Hebella scandens. Stechow 19196. Millard 1957, 1958, 1964, 1968. Millard & Bouillon 1974.
As Lafoea scandens. Warren 1908.
As Hebellopsis scandens. Stechow 1925a
As Hebella urceolata. Millard 1964
Lafoea benthophila. Vervoort 19665
Lafoea dumosa. Stechow 1925a
Lafoea fruticosa. Stechow 1925a. Millard 1964, 1967, 1968.
As Lafoea gracillima. Vervoort 19666
Scandia mutabilis. Millard 1957, 1958, 1964. Millard & Bouillon 1974.
As Lafoea magna. Warren 1908
Zygophylax africana. Stechow 19236. Millard 1964, 1968.
+Zygophylax ?antipathes
Zygophylax armata. Millard 1964, 1967, 1968.
Zyzophylax ?biarmata. Millard 1958, 1968.
Zygophylax geminocarpa. Millard 1958.
Zygophylax ?geniculata. Millard 1968.
Zygophylax infundibulum. Millard 1958, 1968
Zygophylax sibogae. Millard 1964

Family Campanulariidae
Campanularia africana
As Campanularia tincta. Warren 1908.
Campanularia crenata. Millard & Bouillon 1974
Campanularia ?delicata. Millard & Bouillon 1974
As Campanularia ?crenata. Millard 1958
Campanularia hincksii. Millard 1966a
Campanularia integra. Billard 1907a. Millard 1957, 1958, 1966a. Millard & Bouillon 1974
As Campanularia caliculata. Warren 1908
As Clytia compressa. Vanhoffen 1910
?As Campanularia gracilis. Stechow 1925a
Campanularia laminacarpa. Millard 1966a, 1968. Millard & Bouillon 1974
?As Campanularia tincta. Jaderholm 1923a
?As Campanularia africana. Stechow 1925a
Campanularia morgansi. Millard 1957, 1958, 1966a, 1968. Millard & Bouillon 1974
Campanularia pecten. Gow & Millard 1975.
As Campanularia ?mollis. Millard 1966a.
Campanularia roberti. Gow & Millard 1975
Clytia gravieri. Millard & Bouillon 1974
As Laomedea striata. Kramp 1921
As Clytia serrata. Millard 1958
Clytia hemisphaerica. Millard 1966a, 1968. Millard & Bouillon 1974
As Clytia raridentata. Vanhoffen 1910
As Clytia gracilis. Stechow 1925a. Millard 1957, 1958
As Thaumantias raridentata. Stechow 1925a
As Clytia johnstoni. Millard 1958
Clytia hummelincki. Millard 1966a
Clytia latitheca. Millard & Bouillon 1974
Clytia paradoxa
As Eucalix paradoxus. Stechow 19236, 1925a
Clytia paulensis. Stechow 1925a. Millard 1966a, 1968. Millard & Bouillon 1974
?As Clytia (?) ulvae. Stechow 1925a
Clytia warreni
As Clytia elongata. Warren 1908

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 475

Eulaomedea calceolifera
As Laomedea calceolifera. Stechow 1925a
As Laomedea angulata. Millard 19596
Gonothyraea loveni
As Laomedea loveni. Millard 1959b .
Obelia bicuspidata. Millard 1958, 19596, 21968
Obelia dichotoma. Millard 1957, 1958, 19596, 1966a, 1968
As Obelia dubia. Vanhoffen 1910. Stechow 1925a
Obelia geniculata. Ritchie 1909. Broch 1914. Stechow 1925a. Millard 1957, 19595, 1966a

Family Syntheciidae

Hincksella corrugata. Millard 1958. Millard & Bouillon 1974

Hincksella cylindrica pusilla. Millard 1964

Hincksella echinocarpa. Millard 1967

Synthecium dentigerum. Millard 1964

Synthecium elegans. Millard 1957, 1958, 1964. Millard & Bouillon 1974
As Synthecium subyventricosum. Stechow 1925a

Synthecium hians. Millard 1957, 1964, 1968

Family Sertulariidae
Abietinaria abietina
As Sertularia abietina. Busk 1851. (Doubtful species)
Abietinaria laevimarginata. Millard & Bouillon 1974
As Sertularia linealis. Warren 1908. Millard 1958
Amphisbetia maplestonei
As Sertularia bidens. Warren 1908. Stechow 1912
As Odontotheca bidens. Stechow 1919b
As Amphisbetia bidens. Millard 1957, 1958, 1964
Amphisbetia minima. Millard 1957, 1958, 1964. Millard & Bouillon 1974
As Sertularia minima. Allman 1886
As Sertularia crinoidea. Allman 1886
Amphisbetia operculata. Stechow 1925a. Millard 1957, 1958, 1964, 1968
As Dynamena operculata. Krauss 1837
As Sertularia operculata. Busk 1851. Jaderholm 1903, 1917, 1923a. Warren 1908. Ritchie
1909. ?Stechow 1912. Vervoort 19465
As Sertularia aperta. Allman 1886
As Odontotheca operculata. Broch 1914. Stechow 19195
Calamphora campanulata
As Sertularella campanulata. Warren 1908
Crateritheca acanthostoma. Millard 1964
2As Dynamena pluridentata. Kirchenpauer 1864
As Sertularia acanthostoma. Warren 1908
As Stereotheca acanthostoma. Millard 1958
Dictyocladium coactum. Stechow 1923b. Millard 1957, 1964
Diphasia attenuata
As Sertularia rosacea. Busk 1851. (Doubtful species)
Diphasia bipinnata. Allman 1886. (Doubtful species)
Diphasia digitalis. Millard & Bouillon 1974
| Diphasia heurteli
Diphasia nigra
As Sertularia nigra. Busk 1851. (Doubtful species)
Diphasia tetraglochina. Millard 1964. Millard & Bouillon 1974
Dynamena cornicina. Millard 1964. Millard & Bouillon 1974
Dynamena crisioides. Millard 1958, 1964. Rees & Thursfield 1965. Millard & Bouillon 1974
As Thuiaria tubuliformis. Warren 1908
As Dynamena tubuliformis. Stechow 1919a
Dynamena obliqua. Millard 1958. Millard & Bouillon 1974
Dynamena pumila. Krauss 1837. (Doubtful species)

476 ANNALS OF THE SOUTH AFRICAN MUSEUM

Dynamena quadridentata. Vervoort 19466. Millard 1958, 1964. Millard & Bouillon 1974
As Pasythea quadridentata. Warren 1908
Hydrallmania falcata
As Plumularia falcata. Busk 1851. (Doubtful species)
Idiellana pristis. Millard 1968. Millard & Bouillon 1974
Parascyphus simplex. Millard 1968
Salacia articulata. Stechow 1925a. Millard 1957, 1958, 1964, 1968
As Thuiaria ellisii. Busk 1851
As Thuiaria persocialis. Allman 1876
As Thuiaria personalis. Kirchenpauer 1884
As Thuiaria articulata. Kirchenpauer 1884. Marktanner-Turneretscher 1890. Ritchie 1909.
Broch 1914
As Thuiaria pectinata. Allman 1888. Ritchie 19075
As Dymella articulata. Vervoort 19466. Stechow 1923c
+ Salacia desmoides
Salacia disjuncta. Millard 1964
Sertularella africana. Stechow 19196, 1923c. Millard 1957, 1964
As Sertularella fusiformis. Warren 1908
Sertularella agulhensis. Millard 1964
+ Sertularella annulaventricosa
As Sertularella tenella. Hartlaub 1901a (pp)
As Sertularella capensis delicata. Millard 1964
Sertularella arbuscula. Leloup 1934. Stechow 1925a. Millard 1957, 1958, 1964, 1968
As Sertularia 2arbuscula. Busk 1851
As Sertularia polyzonias. Busk 1851 (pp.)
As Sertularella arborea. Kirchenpauer 1884. Marktanner-Turneretscher 1890. Ritchie
1907b. Stechow 1912. Jaderholm 1917
As Sertularella crassipes. Allman 1886
As Sertularella cuneata. Allman 1886
As Sertularella tumida. Warren 1908
Sertularella capensis. Millard 1957, 1964
Sertularella congregata. Millard 1964
Sertularella diaphana. Millard 1958, 1968
Sertularella dubia magna. Millard 1958, 1964, 1968
Sertularella flabellum. Stechow 1925a. Millard 1957, 1958, 1964, 1968
As Thecocladium flabellum. Allman 1888
Sertularella fusiformis. Millard 1957, 1964
As Sertularella lineata. Stechow 19236
Sertularella gayi. Jaderholm 1923a
As Sertularia polyzonias, var. 8. Johnston 1838
As Sertularia polyzonias. Busk 1851 (pp.). (Doubtful species)
Sertularella gilchristi. Millard 1964
Sertularella goliathus. Stechow 19236. Millard 1957, 1964
Sertularella leiocarpa. Vervoort 19666. Millard 1968
Sertularella mediterranea mediterranea. Millard 1957, 1958, 1961
As Sertularella polyzonias. Warren 1908. ?Stechow 1912
Sertularella mediterranea asymmetrica. Millard 1958, 1964. Millard & Bouillon 1974
Sertularella megista. Stechow 19236. Millard 1957, 1964, 1967, 1968
As Sertularella polyzonias, f. robusta. Kirchenpauer 1884
As Sertularella sp. Millard 1958
Sertularella natalensis. Millard 1968
Sertularella polyzonias polyzonias. Kirchenpauer 1884. Millard 1957, 1958, 1961, 1964, 1968
As Sertularella polyzonias f. gracilis. Kirchenpauer 1884
Sertularella polyzonias falsa
As Sertularella falsa. Millard 1957, 1964
Sertularella polyzonias gigantea. Stechow 1925a
Sertularella polyzonias xantha
As Sertularella xantha. Stechow 1923b, 1925a. Millard 1957, 1964, 1967, 1968
As Sertularella longa. Stechow 19236

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 477

Sertularella pulchra. Stechow 1923b. Millard 1964
Sertularella striata. Stechow 1923a, 1925a. Millard 1964
Sertularia argentea. Busk 1851. (Doubtful species)
Sertularia distans. Millard & Bouillon 1974

As Sertularia distans var. gracilis. Millard*1957, 1958

As Sertularia distans gracilis. Millard 1964, 1968
Sertularia ligulata. Millard 1958. Millard & Bouillon 1974
Sertularia longa. Millard & Bouillon 1974

As Sertularia linealis var. longa. Millard 1958

As Sertularia linealis. Millard 1968
Sertularia marginata. Millard 1957, 1964. Millard & Bouillon 1974
Sertularia turbinata. Millard 1958, 1964. ?Rees & Thursfield 1965. Millard & Bouillon 1974

As Sertularia loculosa. Warren 1908

As Sertularia acuta. Millard 1958
Stereotheca elongata. Millard 1968

As Sertularia elongata. Jaderholm 1917
Symplectoscyphus arboriformis. Millard 1964, 1968

As Sertularia polyzonias. Busk 1851 (pp.)

As Sertularella arboriformis. Stechow 1912
Symplectoscyphus filiformis

As Sertularella filiformis var. reticulata. Ritchie 1907b. (Doubtful species)
Symplectoscyphus indivisus. Millard 1961. (Doubtful species)
Symplectoscyphus johnstoni

2As Sertularia gaudichaudi. Busk 1851. (Doubtful species)
Symplectoscyphus macrogonus. Millard 1957, 1964
Symplectoscyphus paulensis. Millard 1967
Symplectoscyphus secundus

As Sertularella secunda. Kirchenpauer 1884

As Sertularella limbata. Allman 1886
Symplectoscyphus unilateralis

2As Sertularia unilateralis. Busk 1851. (Doubtful species)
Thuiaria doliolum. Kirchenpauer 1884. (Doubtful species)
Thyroscyphus aequalis. Warren 1908. Millard 1958, 1964, 1968. Millard & Bouillon 1974

As Thyroscyphus regularis. Jaderholm 1923a. Stechow 1925a
Thyroscyphus fruticosus. Millard 1958. Millard & Bouillon 1974

Family Plumulariidae
Subfamily Halopterinae

Antennella africana. Millard 1957, 1962, 1968
As Antenella quadriaurita forma africana. Broch 1914
As Antenella africana. Stechow 1923a, 1925a
Antennella secundaria. Millard 1958, 1962, 1968. Millard & Bouillon 1974
As Antennella natalensis. Warren 1908
As Antenella secundaria. Stechow 1925a
Corhiza bellicosa. Millard 1962
Corhiza mortenseni. Millard 1968
Corhiza pannosa. Millard 1962, 1968
Corhiza scotiae. Millard 1962, 1968
As Antennopsis scotiae. Ritchie 1907b, 1909. Millard 1957
Corhiza valdiviae
As Heteroplon valdiviae. Stechow 1923a
As Thecocaulus(?) valdiviae. Stechow 1925a
As Halopteris valdiviae. Millard 1957, 1962
|Gattya conspecta
Gattya heurteli. Millard 1968
As Paragattya heurteli. Millard 1958
As Paragattya intermedia. Millard 1958

478 ANNALS OF THE SOUTH AFRICAN MUSEUM

Gattya humilis. Allman 1886. Millard 1961, 1962
As Paragattya intermedia. Warren 1908, 19195. Stechow 1925a. Millard 1957
(non Millard 1958)
7Gattya multithecata
Halopteris gemellipara. Millard 1962
Halopteris glutinosa. Millard 1958, 1962, 1968. Millard & Bouillon 1974
As Plumularia (Heteroplon) glutinosa. Stechow 1925a
Halopteris polymorpha. Vervoort 19666. Millard & Bouillon 1974
* Halopteris pseudoconstricta sp. nov.
As Halopteris constricta. Millard 1957, 1962
* Halopteris rostrata sp. nov.
Halopteris tuba. Millard 1961, 1962, 1968
As Plumularia tuba. Kirchenpauer 1876
As Acladia africana. Marktanner-Turneretscher 1890
As Heteroplon jaederholmi. Stechow 1912
As Plumularia Jaderholmi. Jaderholm 1917
As Plumularia (Heteroplon) africana. Stechow 1925a
As Thecocaulus tuba. Leloup 1939
Monostaechas faurei. Millard 1958, 1968
Monostaechas natalensis. Millard 1958, 1962, 1968
Monostaechas quadridens. Millard & Bouillon 1974
Schizotricha frutescens
As Aglaophenia frutescens. Krauss 1837
Schizotricha simplex. Warren 1914. Millard 1962

Family Plumulariidae
Subfamily Kirchenpaueriinae

Kirchenpaueria irregularis: Millard & Bouillon 1974
As Plumularia irregularis. Millard 1958
Kirchenpaueria pinnata. Vervoort 1946b. Millard 1957, 19596, 1962, 1968
?As Plumularia gaymardi. Kirchenpauer 1876
As Plumularia unilateralis. Ritchie 19076
As Plumularia pinnata. Ritchie 19076
As Plumularia echinulata. Ritchie 1907b, 1909
As Plumularia pinnata, f. typica. Broch 1914
Kirchenpaueria triangulata. Millard 1962, 1967, 1968. Vervoort 19665
Oswaldella nova. Millard 1962. Millard & Bouillon 1974
As Kirchenpaueria adhaerens. Millard 1958
Pycnotheca mirabilis. Millard 1957, 1958 (including var. warreni). Millard & Bouillon 1974
As Kirchenpaueria mirabilis. Warren 1908

Family Plumulariidae
Subfamily Plumulariinae

Dentitheca bidentata. Millard & Bouillon 1974
Nemertesia antennina. Stechow 1912
As Nemertesia antennina irregularis. Vervoort 19665
Nemertesia ciliata. Millard 1962, 1968
Nemertesia cymodocea. Millard 1957, 1962, 1968
As Antennularia cymodocea. Busk 1851
As Nemertesia johnstoni. ?Kirchenpauer 1876
As Nemertesia decussata. Kirchenpauer 1876
As Antennularia decussata. Marktanner-Turneretscher 1890
As Antennularia hartlaubi. Ritchie 19076
Nemertesia ramosa. Millard 1957, 1962, 1967, 1968. Vervoort 19665
As Antennularia ramosa. Busk 1851
Plumularia antonbruuni. Millard 1967
Plumularia filicaulis. Leloup 1934. Millard 1958, 1962. Millard & Bouillon 1974

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 479

Plumularia lagenifera. Broch 1914. Millard 1957, 1962
2As Aglaophenia gaimardi. Lamouroux 1824
As Plumularia lagenifera, var. septifera. Ritchie 1909
* Plumularia mossambicae sp. nov.
Plumularia obliqua. Millard & Bouillon 1974 .
Plumularia pennycuikae. Millard & Bouillon 1974
Plumularia pulchella. Millard 1957, 1962
As Plumularia (Monotheca) flexuosa. Stechow 1925a
Plumularia setacea. Broch 1914. Stechow 1925a. Millard 1957, 1958, 1959b, 1962, 1968.
Vervoort 19665. Millard & Bouillon 1974
Plumularia spinulosa. Warren 1908. Millard 1962
As Plumularia spinulosa, var. obtusa. Millard 1957
As Plumularia spinulosa, var. typica. Millard 1958
Plumularia strictocarpa. Millard & Bouillon 1974
Plumularia warreni. Millard 1958. Millard & Bouillon 1974
As Plumularia tenuis. Warren 1908
Plumularia wasini. Millard 1962, 1968. Millard & Bouillon 1974

Family Plumulariidae
Subfamily Aglaopheniinae
Aglaophenia alopecura. Kirchenpauer 1872. Marktanner-Turneretscher 1890. Stechow 1912.
(Doubtful species)
Aglaophenia attenuata. Allman 1883. (Doubtful species)
Aglaophenia cupressina. Millard & Bouillon 1974
Aglaophenia holubi. Leloup 1934. (Doubtful species)
Aglaophenia latecarinata. Millard 1958, 1962
Aglaophenia pluma dichotoma. Millard 1962, 1968
As Aglaophenia dichotoma. Kirchenpauer 1872. Ritchie 1907b. Stechow 1925a
As Aglaophenia pluma, var. dichotoma. Millard 1957
Aglaophenia pluma parvula. Millard 1962, 1968
As Aglaophenia conferta. ?Kirchenpauer 1872
As Aglaophenia heterodonta. Jaderholm 1903. Ritchie 1909 (pp.)
As Aglaophenia parvula. Stechow 1925a. Vervoort 19465
As Aglaophenia pluma, var. parvula. Millard 1957, 1958
Aglaophenia pluma pluma. Millard 1968
As Aglaophenia pluma. ?Krauss 1837. Broch 1914. Vervoort 19465
As Aglaophenia chalarocarpa. Allman 1886. Warren 1908
As Aglaophenia pluma, var. typica. Millard 1957, 1958
Aglaophenia pusilla. Kirchenpauer 1872. (Doubtful species)
Aglaophenia tubulifera. Kirchenpauer 1872
As Plumularia cristata. Busk 1851. (Doubtful species)
*Cladocarpus crepidatus sp. nov.
Cladocarpus distomus. Vervoort 1966b. Millard 1967, 1968. Vervoort 1972
Cladocarpus dofleini. Vervoort 19665
Cladocarpus inflatus. Vervoort 1966)
Cladocarpus leloupi. Millard 1962
As Cladocarpus flexilis. Leloup 1939
Cladocarpus lignosus. Kirchenpauer 1872. Stechow 1923c, 1925a. Millard 1962
As Plumularia sp. Busk 1851
Cladocarpus millardae. Vervoort 19666
Cladocarpus sinuosus. Vervoort 19665
Cladocarpus tenuis. Vervoort 1966)
*Cladocarpus unicornus sp. nov.
Cladocarpus valdiviae. Stechow 19236
Gymnangium africanum
As Halicornaria africana. Millard 1958, 1968
Gymnangium allmanii
As Halicornaria allmani. Millard 1968

480 ANNALS OF THE SOUTH AFRICAN MUSEUM

Gymnangium arcuatum. Rees & Thursfield 1965
As Aglaophenia arquata. Krauss 1837
As Aglaophenia arcuata. Kirchenpauer 1872. Broch 1914
As Halicornaria arcuata. Stechow 1912. Millard 1958 (ncluding var. epizootica), 1962
(including subsp. epizootica)
Gymnangium exsertum
As Halicornaria exserta. Millard 1962 (including subsp. epizootica)
Gymnangium ferlusi
As Halicornaria ferlusi. Millard 1962
Gymnangium gracilicaule gracilicaule. Millard & Bouillon 1974
As Halicornaria gracilicaulis. Millard 1967
As Halicornaria gracilicaulis gracilicaulis. Millard 1968
Gymnangium gracilicaule lignosum. Millard & Bouillon 1974
As Halicornaria gracilicaulis. Millard 1958
Gymnangium hians
As Halicornaria hians. Millard 1958
Gymnangium longirostre
As Halicornaria longirostris. Millard 1961
Gymnangium montagui
As Aglaophenia pennatula. ?Krauss 1837
As Plumularia pennatula. ?Busk 1851
As Halicornaria allmanii var. Marktanner-Turneretscher 1890
Lytocarpus filamentosus. Broch 1914. Jaderholm 1917. Warren 1919b. Millard 1957, 1958,
1961, 1962, 1968. Rees & Thursfield 1965
As Aglaophenia fusca. Kirchenpauer 1872. Marktanner-Turneretscher 1890
As Aglaophenia patula. Kirchenpauer 1872
As Aglaophenia ligulata. Kirchenpauer 1872
As Lytocarpus patulus. Marktanner-Turneretscher 1890
As Halicornaria segmentata. Warren 1908
As Nematophorus plumosus. Stechow 1923a
As Aglaophenia plumosa. Stechow 1925a
Lytocarpus philippinus. Millard 1958, 1968. Millard & Bouillon 1974
Lytocarpus phoeniceus. Millard 1968
Thecocarpus brevirostris. Millard 1968
As Aglaophenia brevirostris. ?Kirchenpauer 1872
As Aglaophenia vitiana. Billard 1907a
Thecocarpus delicatulus. Millard & Bouillon 1974
Thecocarpus flexuosus flexuosus. Millard 1962
As Aglaophenia (?) bifida. Stechow 1923b
As Thecocarpus giardi. Vervoort 19466. Millard 1957, 1958
Thecocarpus flexuosus plumiferus. Millard 1962, 1968
As Aglaophenia plumifera. Kirchenpauer 1872
Thecocarpus flexuosus solidus. Millard 1962, 1968
As Thecocarpus giardi, var. solidus. Millard 1958
Thecocarpus flexuosus umbellatus. Millard 1962
Thecocarpus formosus. Billard 1907a. Stechow 1912. Broch 1914. Vervoort 19465. Millard
1958, 1962, 1968. Rees & Thursfield 1965
As Plumularia formosa. Busk 1851
As Aglaophenia formosa. Kirchenpauer 1872. Marktanner-Turneretscher 1890
As Aglaophenia parasitica. Warren 1908.

LIMNOMEDUSAE
Family Moerisiidae
Ostroumovia inkermanica. Millard 1970

Family Proboscidactylidae
Proboscidactyla sp. Millard & Bouillon 1974

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 481

RECORDS OF HYDROID MEDUSAE FROM THE SOUTH AFRICAN REGION
(between 20-40°S and 10-40°E)

(UCT: University of Cape Town; RU: Rhodes University)
ATHECATA (Anthomedusae) . Distribution lat./long.
TUBULARIIDAE
Ectopleura dumortieri (van Beneden, 1844) 26/15
Euphysora furcata Kramp, 1948 30/13, 35/18
Paragotoea bathybia Kramp, 1942 35/18
CORYNIDAE
Dipurena halterata (Forbes, 1846) UCT record: 33/18
Sarsia gracilis Browne, 1902 34/18
Sarsia sp. VICE record: 33/18
CLADONEMIDAE
Staurocladia vallentini (Browne, 1902) 34/18. UCT records: 26/15, 33/18
CLAVIDAE
Oceania armata KOlliker, 1853 25/36
HYDRACTINIIDAE
Podocoryne carnea M. Sars, 1846 Position not recorded
BOUGAINVILLIIDAE
Bougainvillia fulva Agassiz & Mayer, 1899 31/30, 25/36, 24/37, 24/38
B. macloviana Lesson, 1836 UCT record: 33/18
B. platygaster (Haeckel, 1879) 34/26, 31/29, 25/36
Kollikerina multicirrata (Kramp, 1928) 31/30, 29/32
CYTAEIDAE
Cytaeis tetrastyla Eschscholtz, 1829 DS SONWiCiml records) 33/285 31/29. 30/5,
30/31, 30/32, 29/31
PANDEIDAE
Annatiara affinis (Hartlaub, 1913) 34/16
Halitholus intermedius (Browne, 1902) SSS s/29
Leuckartiara annexa Kramp, 1957 30/32, 24/38
L. gardineri Browne, 1916 31/30, 29/31, 24/38
L. octona (Fleming, 1823) 31/30, 29/32, 25/36
Neoturris papua (Lesson, 1843) 31/30, 25/36
N. pileata (Forskal, 1775) 26/12
Octotiara russelli Kramp, 1953 31/30
Pandea conica (Quoy & Gaimard, 1824) 33/16, 34/15, 34/26, 25/36
CALYCOPSIDAE
Bythotiara murrayi Gimnther, 1903 26/12
Calycopsis bigelowi Vanhoffen, 1911 33/155 33/116, 34/15
C. chuni Vanhoffen, 1911 34/26, 25/36
Heterotiara anonyma Maas, 1905 30/13
H. minor Vanhoffen, 1911 36/36, 31/29, 25/36, 24/37
THECATA (Leptomedusae)
LAODICEIDAE
Chromatonema rubrum Fewkes, 1882 33/16, 34/15
Laodicea indica Browne, 1905 36/21
L. undulata (Forbes & Goodsir, 1851) 33/15. Wie T record: 2729/31
MITROCOMIDAE
Cosmetirella davisi (Browne, 1902) 26/15, 35/18
Mitrocoma minervae Haeckel, 1879 Position not recorded

Mitrocomella grandis Kramp, 1965 Position not recorded

482 ANNALS OF THE SOUTH AFRICAN MUSEUM

AEQUOREIDAE
Aequorea aequorea (Forskal, 1775) 22/13, 36/16, 31/30, 29/32. UCT record:
33/18
A. australis Uchida, 1947 36/21, 29/32, 25/36
A. coerulescens (Brandt, 1838) 26/15, 29/32
A. conica Browne, 1905 29/31
* 4. macrodactyla (Brandt, 1838) 33/15, 33/16, 34/16, 35/18, 36/21, 31/30,
31/32, 29/32, 34/34, 25/36, 39/38
* 4. pensilis (Eschscholtz, 1829) 35/209 36/2129 /3129)/82
A. Sp. 33/15, 34/17, 35/17, 31/29, 24/39
Zygocanna vagans Bigelow, 1912 33/15, 34/15, 31/30, 29/32, 24/38
PHIALELLIDAE
Phialella falklandica Browne, 1902 UCT record: 33/18
LOVENELLIDAE
Cirrholovenia polynema Kramp, 1959 24/37
Eucheilota sp. 34/18
PHIALUCIIDAE
Phialucium carolinae (Mayer, 1900) 24/37
EIRENIDAE (including Eutimidae)
Eirene ceylonensis Browne, 1905 29/32
E. hexanemalis (Goette, 1886) 36/21, 29/32
E. menoni Kramp, 1953 29/32
E. palkensis Browne, 1905 29/31
Eutima levuca (Agassiz & Mayer, 1899) 29/31
Phialopsis diegensis Torrey, 1909 33/15, 34/16, 34/34, 36/36, 29/32
CAMPANULARIIDAE
Phialidium ?phosphoricum
(Péron & Lesueur, 1809) 34/18
P. simplex Browne, 1902 34/26
Obelia sp. 26/15, 34/18. UCT record: 33/18
LIMNOMEDUSAE
MOERISIIDAE
Ostroumovia inkermanica
(Paltschikowa-Ostroumowa, 1925) RU record: 27/32
PROBOSCIDACTYLIDAE
Proboscidactyla mutabilis (Browne, 1902) UCT record: 33/18
ACKNOWLEDGEMENTS

The author wishes to express thanks to the following institutions for the
loan of hydroid material for comparative examination:

The Royal Scottish Museum, Edinburgh

Zoologische Sammlung des Bayerischen Staates, Munich
Naturhistoriske Riksmuseet, Stockholm

Zoological Survey of India, Calcutta

The British Museum (Natural History), London

The Natal Museum, Pietermaritzburg

*Vanhoffen (1911, 1912) apparently included both A. macrodactyla and A. pensile under the
name of Mesonema coelum pensile. These records have been omitted.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 483

Help received from the following in identification of material other than
Hydroida is gratefully acknowledged:
Dr M. E. Thiel of the Hamburg Museum and the late Dr W. J. Rees of the British
Museum (Natural History): medusae

Professor J. H. Day, University of Cape Town: polychaets
Dr B. Kensley, South African Museum: gastropods and decapods

The author is also indebted to many colleagues and students at the Uni-
versity of Cape Town and the South African Museum for collecting and
preserving interesting specimens whenever the opportunity offered.

Permission to reproduce diagrams of species not available to the author
has been granted by the following:

Naturhistorisches Museum, Vienna (Annln Naturh. Mus. Wien)

Universitetets Zoologiske Museum, Copenhagen (Galathea Rep.)

The Editor, Vidensk. Meddr dansk naturh. Foren.

Gustav Fischer Verlag, Stuttgart (Wiss. Ergebn. dt. Tiefsee-Exped. ‘ Valdivia’)

Walter de Gruyter & Co., Berlin (Dr. Siidpol.— Exped.)

Naturshistoriska Museet, Goteborg (Medd. Goteborg Mus. Zool.)

Co. of Biologists, University of Cambridge (Quart. J. microsc. Sci.)

Natal Museum, Pietermaritzburg (Ann. Natal Mus.)

University of Tokyo (J. Coll. Sci. imp. Univ. Tokyo)

Institut Royal des Sciences Naturelles de Belgique (Bull. Mus. r. Hist. nat. Belg.)

ADDENDUM
Family Plumulariidae
Subfamily Aglaopheniinae
Cladocarpus paries * sp. nov.
Fig. 143
Holotype: SAM-H1914: off East London, 33°25’S/27°29’E, 70 m, 23/1/75.

Description. One branching stem 75 mm high. Hydrorhiza a thickened mat
5 mm wide, flattened on under side and detached from some hard surface.
Stem thick and strongly fascicled, 1,5 mm thick at base, branching and
rebranching in one plane; bearing alternate hydrocladia from an axial tube.
Larger branches fascicled almost to end. Axial tube, where exposed, divided
into regular internodes by straight nodes, each internode bearing one hydro-
cladial apophysis and two nematothecae, one anterior axillary and one proximal
and anterior. Peripheral tubes bearing longitudinal rows of nematothecae. The
two rows of hydrocladia in one plane.

Hydrocladium 2-3 mm in length and bearing up to eight hydrothecae.
First internode short and athecate, with one median nematotheca. Remaining
internodes thecate, each bearing one hydrotheca and three nematothecae, one
median inferior and two laterals. All nodes oblique. Two internodal septa in

* paries: the wall of a house.

484 ANNALS OF THE SOUTH AFRICAN MUSEUM

Fig. 143

Cladocarpus paries sp. nov. A, stem; B, anterior view of stem showing origins of hydrocladia;
C_D, parts of hydrocladia with hydrothecae; E, t.s. perisarc of hydrocladium showing
partition in hydrotheca (internode above, hydrotheca below).

Scale: A in cm, the rest in mm/10.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 485

first internode; four or five in thecate internodes, three or four behind hydro-
theca and one proximal.

Hydrotheca deep and tubular, curved slightly outwards. Abcauline wall
with slight sigmoidal curvature, margin forming an angle of 40—50° with inter-
node. No transverse intrathecal septa, but a longitudinal septum attached to
centre of abcauline wall and stretching up to halfway across cavity. Margin
sinuated, with no distinct teeth, but sometimes with a low, rounded lobe on
each side. Abcauline edge thickened.

Median inferior nematotheca free from hydrotheca, short, reaching to just
above base of hydrotheca, bifurcated and with two terminal apertures, with a
third aperture on upper surface of undivided part; no opening into hydrotheca.
Lateral nematotheca bifurcated, with one terminal aperture on a long neck and
reaching well above thecal margin, a second opening on a shorter neck reaching
approximately to thecal margin and a third opening on mesial surface. Cauline
nematotheca sac-shaped, with one or two openings.

Gonothecae absent.

Measurements (mm)

Hydrocladium, first internode, length .. a: ae + .. 0,10—0,13
other internodes, length a bi eet ie Ee .-4 10323-0535
Hydrotheca, length oe ne ae ne a 8 .. 0,18-0,24
width at mouth 3 o nus a cs Le .. 0,10-0,11
width/length .. : uf re Me m5 Me .. 0,42-0,56
Lateral nematotheca, length oe a =n ae .. 0,13-0,19
Median nematotheca, length of free seat et hye des .. 0,03-0,05

Remarks. This species closely resembles Cladocarpus lignosus in general
appearance and form of the colony. It differs in the narrower, outwardly-curved
hydrotheca, in the absence of marginal teeth, and in the longer lateral nemato-
theca. The median partition in the hydrotheca is a unique feature distinguishing
it from all other species of Cladocarpus; it is widest at about the centre of the
hydrotheca, where it may reach halfway across the cavity, and narrows rapidly
above this to peter out below the thecal margin. The hydranth bulges onto
both sides of the partition.

Distribution. Endemic to South Africa.

Distribution in South Africa. The only record is the holotype recorded above.
33/27 (s)

REFERENCES

* References containing South African records.
+ References which have not been examined by the author.

Acassiz, L. 1862. Contributions to the natural history of the United States of America. 4 (4):
Hydroidae. Boston: Little, Brown.

ALDER, J. 1856. A notice of some new genera and species of British hydroid zoophytes.— Ann.
Mag. nat. Hist. (2) 18: 353-362.

486 ANNALS OF THE SOUTH AFRICAN MUSEUM

ALDER, J. 1860. Descriptions of a zoophyte and two species of Kcninodermata new to Britain. —
Ann. Mag. nat. Hist. (3) 5: 73-75.

ALLMAN, G. J. 1859. Notes on the hydroid zoophytes.— Ann. Mag. nat. Hist. (3) 4: 137-144.

ALLMAN, G. J. 1864. On the construction and limitation of genera among the Hydroida.-
Ann. Mag. nat. Hist. (3) 13: 345-380.

ALLMAN, G. J. 1871. A monograph of the gymnoblastic or tubularian hydroids. Part 1.— Ray
Soc. Publs.

ALLMAN, G. J. 1872. A monograph of the gymnoblastic or tubularian hydroids. Part 2.— Ray
Soc. Publs.

*ALLMAN, G. J. 1876. Diagnoses of new genera and species of Hydroida.—J. Linn. Soc.
(Zool) 12: 251-284.

ALLMAN, G. J. 1877. Report on the Hydroida collected during the exploration of the Gulf
Stream by L. F. de Pourtalés, assistant United States coast survey.—Mem. Mus. comp.
Zool. Harv. 5: 1-66.

*ALLMAN, G. J. 1883. Report on the Hydroida dredged by H.M.S. Challenger during the years
1873-76. Part I. Plumularidae.— Rep. Voy. Challenger 1873-76, Zoology 7 (20): 1-54.

ALLMAN, G. J. 1885. The Hydroida.— Rep. Voy. Challenger 1873-76, narrative of the cruise,
1 (2): 751-753.

*ALLMAN, G. J. 1886. Description of Australian, Cape and other Hydroida, mostly new, from
the collection of Miss H. Gatty.—J. Linn. Soc. (Zool.) 19: 132-161.

*ALLMAN, G. J. 1888. Report on the Hydroida dredged by H.M.S. Challenger during the
years 1873-76. Part II.—The Tubularinae, Corymorphinae, Campanularinae, Sertularinae
and Thalamophora.— Rep. Voy. Challenger 1873-76, Zoology, 23 (70): 1-90.

ANNANDALE, N. 1915. Fauna of the Chilka Lake. The coelenterates of the lake, with an
account of the Actiniaria of brackish water in the Gangetic Delta.— Mem. Indian Mus.
5: 65-114.

BALE, W. M. 1882. On the Hydroida of south-eastern Australia, with descriptions of supposed
new species, and notes on the genus Aglaophenia.—J. microsc. Soc. Vict. 2: 15-48.

BALE, W. M. 1884. Catalogue of the Australian hydroid zoophytes. Sydney: Australian Museum.

BALE, W. M, 1888. On some new and rare Hydroida in the Australian Museum collection. —
Proc. Linn. Soc. N.S.W. (2) 3: 745-799.

BALE, W. M. 1894. Further notes on Australian hydroids, with descriptions of some new
species.—Proc. R. Soc. Vict. 6: 93-117.

BALE, W. M. 1913. Further notes on Australian hydroids. I].—Proc. R. Soc. Vict. 26: 114-147.

Bate, W. M. 1914a. Report on the Hydroida collected in the Great Australian Bight and
other localities.— Zool. (biol.) Results Fish. Exp. ‘Endeavour’ 2: 3-62.

BALE, W. M. 19145. Report on the Hydroida collected in the Great Australian Bight and other
localities. Part II.— Zool. (biol.) Results Fish. Exp. ‘Endeavour’ 2: 166-188.

BALE, W. M. 1915. Report on the Hydroida collected in the Great Australian Bight and other
localities. II1I.—Zool. (biol.) Results Fish. Exp. ‘Endeavour’ 3: 241-336.

BepoT, M. 1919. Les variations d’Aglaophenia pluma (L.).— Revue suisse Zool. 27: 243-282.

Bepbot, M. 1921. Notes systématiques sur les Plumularides. I.— Revue suisse Zool. 28: 311-356.

BEHNER, A. 1914. Beitrag zur Kenntnis der Hydromedusen.—Z. wiss. Zool. 3: 381-427.

BILLARD, A. 1901. Note sur la Polyplumularia flabellata G.O. Sars et sur |’Halicornaria Ferlusi
n. sp.— Bull. Mus. Hist. nat., Paris 7: 117-121.

BILLARD, A. 1904a. Contribution a l’étude des Hydroides (multiplication, régénération, graffes
variations). Paris: Masson.

BILLARD, A. 19046. Hydroides récoltés par M. Ch. Gravier dans le Golfe de Tadjourah. —
Bull. Mus. Hist. nat., Paris 7: 480-485.

BILLARD, A. 1906. Hydroides.— Expéd. scient. Travailleur-Talisman 8: 153-244.

*BILLARD, A. 1907a. Hydroides de Madagascar et du sud-est de |’Afrique.—Archs Zool.
exp. gén. (4) 7: 335-396.

BILLARD, A. 1907b. Deux expéces nouvelles d’ Hydroides de Madagascar. (Note préliminaire.) —
Archs Zool. exp. gén. (4) 6: 79-82.

BILLARD, A. 1908. Sur les Plumulariidae de la collection du ‘Challenger’.—C. r. hebd. Séanc.
Acad. Sci., Paris 147: 758-760, 938-941.

BILLARD, A. 1909. Revision des espéces types d’Hydroides de la collection Lamouroux,
conservée a |’Institut Botanique de Caen.—Annls Sci. nat. (Zool.) 9: 307-336

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 487

BILLARD, A. 1910. Revision d’une partie de la collection des Hydroides du British Museum. —
Annls Sci. nat. (Zool.) 11: 1-67.

BILLARD, A. 1912. Hydroides de Roscoff.—Archs Zool. exp. gén. (5) 51: 459-478.

BILLARD, A. 1913. Les Hydroides de l’expédition du Siboga. I. Plumulariidae.— Siboga Exped.
7a: 1-115. 7

BILLARD, A. 1918. Notes sur quelques espéces d’Hydroides de l’expédition du ,,Siboga’’. —
Archs Zool. exp. gén. 57: 21-27.

BILLARD, A. 1922. Note critique sur quatre especes de Sertularella.— Revue suisse Zool.
30: 103-114.

BILLARD, A. 1924. Note critique sur divers genres et especes d’Hydroides avec la description
de trois espéces nouvelles.— Revue suisse Zool. 31: 53-74.

BILLARD, A. 1925a. Les Hydroides de l’expédition du Siboga. II. Synthecidae et Sertularidae. —
Siboga Exped. 7b: 117-232.

BILLARD, A. 1925. Note sur le Sertularia distans (Lamouroux).— Bull. Mus. natn. Hist. nat.,
Paris 31: 197-202.

BILLARD, A. 1929. Note sur un genre nouveau et quelques espéces nouvelles d’Halecidae. —
Bull. Soc. zool. Fr. 54: 305-307.

BILLARD, A. 1933. Les Hydroides des Golfes de Suez et d’Akaba.— Mém. Inst. Egypte 21: 1-30.

BILLARD, A. 1938. Note sur une espece de Campanularidés (Clytia Gravieri, Billard). — Bull.
Mus. natn. Hist. nat., Paris (2) 10: 429-432.

BLACKBURN, M. 1937. Notes on Australian Hydrozoa, with descriptions of two new species. —
Proc. R. Soc. Vict. 50: 170-181.

BOUILLON, J. 1971. Sur quelques Hydroides de Roscoff.— Cah. Biol. mar. 12: 323-364.

BOUILLON, J. 1974. Description de Teissiera milleporoides, nouveau genre et nouvelle espéce de
Zancleidae des Seychelles (Hydrozoaires; Athécates-Anthoméduses), avec une révision
des Hydroides ‘Pteronematoidea’.— Cah. Biol. mar. 15: 113-154.

Bourne, G. C. 1890. Notes on the hydroids of Plymouth. —J. mar. biol. Ass. U.K. 1: 391-398.

BRATTSTROM, H. 1957. Branchiocerianthus norvegicus n. sp. from the Hardangerfjord, Western
Norway. —Publs biol. Stn Espegrend 19: 1-10.

BRAVERMAN, M. H. 1973. The cellular basis of hydroid morphogenesis.—Publs Seto mar. biol.
Lab. 20: (Proc. Second Int. Symp. Cnidaria): 221-256.

*BRAZIER, J. 1887. Notes on the distribution of Ceratella fusca Gray.—FProc. Linn. Soc.
N.S.W. (2) 1: 575-576.

Bricas, E. A. 1915. Notes on Tasmanian Hydrozoa.—J. Proc. R. Soc. N.S.W. 48: 302-318.

BRINCKMANN, A. 1959. Uber den Generationswechsel von Eucheilota cirrata (Haeckel 1879). —
Pubbl. Staz. zool. Napoli 31: 82-89.

BRINCKMANN, A. & VANNUCCI, M. 1965. On the life-cycle of Proboscidactyla ornata (Hydro-
medusae, Proboscidactylidae).— Pubbl. Staz. zool. Napoli 34: 357-365.

BRINCKMANN-Voss, A. 1970. Anthomedusae/Athecatae (Hydrozoa, Cnidaria) of the Mediter-
ranean. Part I. Capitata.— Fauna Flora Golfo Napoli 39: 1-96.

BRINKMANN-Voss, A. 1973. The life-cycle of Eirene lactea (Mayer, 1900) and Helgicirrha
schulzei Hartlaub, 1909 (Phylum Cnidaria, Class Hydrozoa, Order Leptomedusae,
Family Eirenidae).—Publs Seto mar. biol. Lab. 20 (Proc. Second Int. Symp. Cnidaria):
63-72.

Brocu, H. 1909. Die Hydroiden der arktischen Meere. — Fauna arct. 5: 129-248.

* BrocH, H. 1914. Hydrozoa benthonica.— Beitr. Kennt. Meeresfauna Westafr. 1: 19-50.

Brocu, H. 1916. Hydroida I.— Dan. Ingolf-Exped. 5 (6): 1-66.

Brocu, H. 1918. Hydroida II.— Dan. Ingolf-Exped. 5 (7): 1-205.

Brocu, H. 1933. Zur Kenntnis der adriatischen Hydroidenfauna von Split.—Skr. norske
Vidensk-Akad. mat.-nat. KI. 4: 1-115.

BROWNE, E. T. 1896. On British hydroids and medusae.—Proc. zool. Soc. Lond. 1896: 459.

Browne, E. T. 1902. A preliminary report on Hydromedusae from the Falkland Islands.—
Ann. Mag. nat. Hist. (7) 9: 272-284.

Browne, E. T. & KRAmpP, P. L. 1939. Hydromedusae from the Falkland Islands. —‘ Discovery’
Rep. 18: 265-322.

* Busk, G. 1851. A list of Sertularian zoophytes and Polyzoa from Port Natal, Algoa Bay,
and Table Bay, in South Africa; with remarks on their geographical distribution, and
observations on the genera Plumularia and Catenicella.—Rep. Br. Ass. Advmt Sci.
(Notices and Abstracts) 1850: 118-120.

488 ANNALS OF THE SOUTH AFRICAN MUSEUM

Busk, G. 1852. An account of the Polyzoa, and Sertularian zoophytes, collected in the voyage
of the Rattlesnake, on the coasts of Australia and the Louisiade Archipelago, etc. In:
MACGILLIVRAY, J. Narrative of the voyage of H.M.S. Rattlesnake. Appendix 1: 343-402.
London.

CasiocH, L. 1965. Sur la présence de dactylozoides chez Merona cornucopiae (Norman).—
Cah. Biol. mar. 6: 401-405.

CALDER, D. R. 1970a. Thecate hydroids from the shelf waters of northern Canada.—J. Fish.
Res. Bd Can. 27: 1501-1547.

CALDER, D. R. 19706. North American record of the hydroid Proboscidactyla ornata (Hydrozoa,
Proboscidactylidae).— Chesapeake Sci. 11: 130-132.

CALDER, D. R. & BURRELL, V. G. 1969. Brackish water Hydromedusa Maeotias inexpectata
in North America. — Nature, Lond. 222: 694-695.

*+CARTER, H. J. 1873. Transformation of an entire shell into chitinous structure by the polype
Hydractinia, with short descriptions of the polypidoms of five other species.— Ann. Mag.
nat. Hist. (4) 11: 1-15.

CLARKE, S. F. 1875. Descriptions of new and rare species of hydroids from the New England
coast. — Trans. Conn. Acad. Arts Sci. 3: 58-66.

CLARKE, S. F. 1876. Report on the hydroids collected on the coast of Alaska and the Aleutian
Islands, by W. H. Dall, U.S. coast survey, and party, from 1871 to 1874 inclusive.— Proc.
Acad. nat. Sci. Philad. 28: 209-238.

CLARKE, S. F. 1879. Report on the Hydroida collected during the exploration of the Gulf
Stream and Gulf of Mexico by Alexander Agassiz. 1877—78.— Bull. Mus. comp. Zool.
Harv. 5: 239-252.

CLARKE, S. F. 1882. New and interesting hydroids from Chesapeake Bay.— Mem. Boston Soc.
nat. Hist. 3: 135-142.

CLARKE, S. F. 1894. Reports on the dredging operations off the west coast of Central America
to the Galapagos, to the west coast of Mexico, and in the Gulf of California, in charge
of Alexander Agassiz, carried on by the U.S. Fish Commission steamer ‘Albatross’, during
1891, Lieut. Commander Z. L. Tanner, U.S.N., commanding.— Bull. Mus. comp. Zool.
Hary. 25: 71-77.

CLARKE, S. F. 1907. Reports on the scientific results of the expedition to the eastern tropical
Pacific, in charge of Alexander Agassiz, by the U.S. Fish Commission steamer ‘Albatross’,
from October, 1904, to March, 1905, Lieut.-Commander L. M. Garrett, U.S.N., com-
manding. VIII. The hydroids.—Mem. Mus. comp. Zool. Harv. 35: 1-18.

CouGHTREY, M. 1876. Critical notes on the New-Zealand Hydroida, Suborder Thecaphora. —
Ann. Mag. nat. Hist. (4) 17: 22-32.

Epwarps, C. 1966. The hydroid and the medusa Bougainvillia principis, and a review of the
British species of Bougainvillia.—J. mar. biol. Ass. U.K. 46: 129-152.

Epwarps, C. 1973. The medusa Modeeria rotunda and its hydroid Stegopoma fastigiatum,
with a review of Stegopoma and Stegolaria.—J. mar. biol. Ass. U.K. 53: 573-600.

Exuis, J. & SOLANDER, D. 1786. The natural history of many curious and uncommon zoophytes,
collected from various parts of the globe. London: White.

+Esper, E. J. C. 1793. Die Pflanzenthiere in Abbildungen nach der Natur mit Farben erleuchtet.
2. Nurnberg: Bauer & Raspe.

*Ewer, D. W. 1953. Ona new tubularian hydroid from Natal.— Ann. Natal Mus. 12: 351-357.

FLEMING, J. 1820. Observations on the natural history of the Sertularia gelatinosa of Pallas. —
Edinb. phil. J. 2: 82-89.

FLEMING, J. 1823. Gleanings of natural history, gathered on the coast of Scotland during a
voyage in 1821.— Edinb. phil. J. 8: 294-303.

FRASER, C. McL. 1914. Some hydroids of the Vancouver Island region.—Trans. R. Soc. Can.
(3) 8: 99-216.

FRASER, C. McL. 1944. Hydroids of the Atlantic coast of North America. Toronto: University
Press.

GAERTNER, J. 1774. In: PALLAS, P. S. Spicilegia zoologica. 1 (10). Berolini: Reimer.

*GILCHRIST, J. D. F. 1919. On a species of the crawling medusa Eleutheria, from the Cape
of Good Hope (Cnidonema capensis, g. et sp. n.) and the southern Eleutheriae.— Q. J/
microsc. Sci. 63: 509-529.

GMELIN, J. F. 1791. Caroli a Linne . . . Systema Naturae ... ed. 13. Vermes. 1 (6): 3021-3910.
Lipsiae: Beer.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 489

+Go.pFuss, G. S. 1820. Handbuch der Zoologie. Erste Abtheilung. Niirnberg: Schrag.

GossE, P. H. 1857. On a new form of corynoid polypes.— Trans. Linn. Soc. Lond. (1) 22:
113-116.

*Gow, C. & MILLARD, N. A. H. 1975. Two new species of campanularian hydroids from
South Africa.— Ann. S. Afr. Mus. 67: 1~6.

GRAVELY, F. H. 1927. The littoral fauna of Krusadai Island in the Gulf of Manaar,
Hydrozoa.— Bull. Madras Govt Mus. (n.s. Nat. Hist.) 1: 7-20.

Gravier, N. 1970a. Etude des Hydraires epiphytes des phanérogames marines de la région
de Tulear (sud-oest de Madagascar).—Recl Trav. Stn mar. Endoume-Marseille 10:
111-161.

GRAviER, N. 19706. Libération de médusoides par Macrorhynchia philippina Kirchenpauer,
1872 (Hydroida, Plumulariidae).— Rec! Trav. Stn mar. Endoume-Marseille 10: 253-257.

GRAVIER, N. BONNET-. 1972. Hydroides épiphytes de trois phanérogames marines en Proven-
ance de Nossi-bé (N.W. de Madagascar).— Tethys Suppl. 3: 3-10.

GRAY, J. E. 1868. Notes on the Ceratelladae, a family of keratose.sponges.— Proc. zool. Soc.
Lond. 1868: 575-579.

*+tHAECKEL, E. 1879. Das System der Medusen. Erster Theil einer Monographie der Medusen.
— Denkschr. med.-naturw Ges. Jena 1: i-xxv, 1-672.

HAMOND, R. 1957. Notes on the Hydrozoa of the Norfolk coast.—J. Linn. Soc. (Zool.) 43:
294-324.

Hancock, D. A., DRINNAN, R. E. & Harris, W. N. 1956. Notes on the biology of Sertularia
argentea L.—J. mar. biol. Ass. U.K. 35: 307-325.

HAnp, C. 1954. Three Pacific species of ‘Lar’ (including a new species), their hosts, medusae,
and relationships. (Coelenterata, Hydrozoa).—Pacif. Sci. 8: 51-67.

HARTLAvB, C. 1897. Die Hydromedusen Helgolands. — Wiss. Meeresunters. (Helgol.) 2 (Heft 1,
Abt. 2): 449-536.

*HARTLAUB, C. 190la. Revision der Sertularella-Arten.—Abh. Geb. Naturw. Hamburg
16: 1-143.

HARTLAUvB, C. 19015. Hydroiden aus dem Stillen Ocean. — Zool. Jb. (System. Abt.) 14: 349-379.

HARTLAvuB, C. 1904. Hydroiden.— Résult. Voyage S.Y. Belgica: 1-19.

*HARTLAUB, C. 1905. Die Hydroiden der magalhaensischen Region und chilenischen Kiiste. —
Zool. Jb. Suppl. 6 (3): 497-714.

HASSALL, A. H. 1848. Definitions of three new English zoophytes. — Zoologist 6: 2223.

Hawes, F. B. 1955. Notes on the variation occurring in Tubularia larynx Ellis & Solander. —
J. mar. biol. Ass. U.K. 34: 333-346.

Hickson, S. J. 1903. On the Coelenterata collected by Mr C. Crossland in Zanzibar.—1.
Ceratella minima, n. sp.—Proc. zool. Soc. Lond. 1903 (1): 113-116.

Hincxks, T. 1853. Further notes on British zoophytes, with descriptions of new species.— Ann.
Mag. nat. Hist. (2) 11: 178-185.

Hincxs, T. 1861. A catalogue of the zoophytes of South Devon and South Cornwall.— Ann.
Mag. nat. Hist. (3) 8: 251-262.

*HINCKS, T. 1868. A history of the British hydroid zoophytes. London: Van Voorst.

Hincks, T. 1871. Supplement to a ‘Catalogue of the zoophytes of South Devon and South
Cornwall’, with descriptions of new species. — Ann. Mag. nat. Hist. (4) 8: 73-83.

Hincks, T. 1872. On the hydroid Lar sabellarum, Gosse, and its reproduction.— Ann. Mag.
nat. Hist. (4) 10: 313-317.

Hincks, T. 1874. On deep-water Hydroida from Iceland. — Ann. Mag. nat. Hist. (4) 13: 146-153.

Hirouito, Emperor of Japan. 1969. Some hydroids of the Amakusa Islands. Tokyo: Imperial
Household.

Hirouiro, Emperor of Japan. 1974. Some hydrozoans of the Bonin Islands. Tokyo: Imperial
Household.

Huve, P. 1952. Revision des polypes Campanulinides mediterranéens.— Rec! Trav. Stn mar.
Endoume 4: 34-47.

HuveE, P. 1954. Hydranthea et Campalecium. Genres mediterranéens aberrants d’Hydroides de
la famille des Haleciides.— Recl Trav. Stn mar. Endoume 13: 173-192.

*+Hyatt, A. 1877. Revision of the North American Poriferae; with remarks upon foreign
species. Part 2.— Mem. Boston Soc. nat. Hist. 2: 481-554.

Iwasa, M. 1934. Revision of Stylactis and its allied genera, with description of Stylactella
(Stylactis) yerii n. sp.—J. Fac. Sci. Hokkaido Univ. (6) 2: 241-277.

490 ANNALS OF THE SOUTH AFRICAN MUSEUM

*JADERHOLM, E. 1903. Aussereuropdische Hydroiden im schwedischen Reichsmuseum.—
Ark. Zool. 1: 259-312.

JADERHOLM, E. 1909. Northern and arctic invertebrates in the collection of the Swedish State
Museum (Riksmuseum). IV. Hydroiden.—K. svenska VetenskAkad. Handl. 45: 1-124.

*JADERHOLM, E. 1917. Hydroids from the south seas.— Redog. Norrképings Ldaroverk Ldsaret
1916-1917: 1-23.

JADERHOLM, E. 1919. Zur Kenntnis der Hydroidenfauna Japans.— Ark. Zool. 12 (9): 1-34.

JADERHOLM, E. 1920. On some exotic hydroids in the Swedish Zoological State Museum. —
Ark. Zool. 13 (3): 1-11.

*JADERHOLM, E. 1923a. Hydroids from West and South Africa.—Gdéteborgs K. Vetensk.—o.
vitterhSamh. Handl. (4) 26 (26): 1-7.

JADERHOLM, E. 1923. Notes on hydroids from the Great Ocean. —Géteborgs K. Vetensk.—o.
vitterhSamh. Handl. (4) 26 (27): 3-6.

JARVIS, F. E. 1922. The hydroids from the Chagos, Seychelles, and other islands and from the
coasts of British East Africa and Zanzibar.—Trans. Linn. Soc. Lond. (Zool.) 18: 331-360.

JOHNSTON, G. 1838. A history of the British zoophytes. Edinburgh: Lizars.

*+ JOHNSTON, G. 1847. A history of British zoophytes. 2nd ed. London.

*KIRCHENPAUER, G. H. 1864. Neue Sertulariden aus verschiedenen Hamburgischen Samm-
lungen, nebst allgemeinen Bemerkungen tiber Lamouroux’s Gattung Dynamena.— Nova
Acta Acad. Caesar. Leop. Carol. 31 (3): 1-16.

*KIRCHENPAUER, G. H. 1872. Ueber die Hydroidenfamilie Plumularidae, einselne Gruppen
derselben und ihre Fruchtbehalter: I. Aglaophenia Lx.—Abh. Geb. Naturw. Hamburg
Sl—52.

*KIRCHENPAUER, G. H. 1876. Ueber die Hydroidenfamilie Plumularidae, einselne Gruppen
derselben und ihre Fruchtbehalter (II. Plumularia und Nemertesia).—Abh. Geb. Naturw.
Hamburg 6: 1-59.

*KIRCHENPAUER, G. H. 1884. Nordische Gattungen und Arten von Sertulariden.— Abh. Geb.
Naturw. Hamburg 8 (3): 1-54.

*KRAMP, P. L. 1921. Kinetocodium danae n. g., n. sp., a new gymnoblastic hydroid, parasitic
on a pteropod.— Vidensk. Meddr dansk naturh. Foren. 74: 1-21.

Kramp, P. L. 1932. The Godthaab Expedition 1928. Hydroids.—Meddr Grénland 79: 1-86.

Kramp, P. L. 1949. Origin of the hydroid family Corymorphidae.— Vidensk. Meddr dansk
naturh. Foren. 111: 183-215.

Kramp, P. L. 1951. Hydrozoa and Scyphozoa. Jn: Reports of the Swedish Deep-sea Expedition,
1947-1948.—Gé6teborgs K. Vetensk —o. VitterhSamh. Handi. 2 (1): 121-127.

*KRAMP, P. L. 1957. Hydromedusae from the Discovery collections.—‘ Discovery’ Rep. 29:
1-128.

*KRAMP, P. L. 1959. The Hydromedusae of the Atlantic Ocean and adjacent waters.— Dana
Rep. 46: 1-283.

*KRAMP, P. L. 1961. Synopsis of the medusae of the world. —J/. mar. biol. Ass. U.K. 40: 7-469.

*KRAMP, P. L. 1965. The Hydromedusae of the Pacific and Indian Oceans.— Dana Rep.
63: 1-161.

KRAmp, P. L. 1968. The Hydromedusae of the Pacific and Indian Oceans. Sections II and I11.—
Dana Rep. 72: 1-200.

*KraAuss, C. F. F. 1837. Beitrag zur Kenntnis der Corallinen und Zoophyten der Siidsee.
Stuttgart: Schweizerbart.

KUHN, A. 1914. Entwicklungsgeschichte und Verwandtsschaftsbeziehungen der Hydrozoen.
I. Theil. Die Hydroiden.—Ergebn. Fortschr. Zool. 4: 1-284.

LAMARCK, J. P. B. A. de 1816. Histoire naturelle des animaux sans vertebres. Ed. 1. 2. Paris:
Bailliére.

LAMOUROUX, J. V. F. 1816. Histoire des polypiers coralligénes flexibles, vulgairement nommés
zoophytes. Caen: Poisson.

LAMOUROUX, J. V. F. 1821. Exposition méthodique des genres de l’ordre des polypiers, avec leur
description et celle des principales expéces. Paris: Agasse.

*LAMOUROUX, J. V. F. 1824. Polypiers flexibles. In: Quoy, J. R. C. & GAIMARD, J. P. Voyage
autour du monde (exécuté sur les corvettes de S. M. Il’Uranie et la Physicienne, pendant
les anneés 1817, 1818, 1819 et 1820, par M. Louis de Freycinet). Zoologie: 603-693. Paris:
Pillet.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 49]

*LeLoup, E. 1934. Trois hydropolypes de la Baie de la Table, Afrique Australe.— Bull. Mus.
r. Hist. nat. Belg. 10 (19): 1-8.

LeLoup, E. 1935. Hydraires Calyptoblastiques des Indes occidentales.— Wém. Mus. r. Hist.
nat. Belg. (2) 2: 1-73.

LeLoup, E. 1937. Hydropolypes et Scyphopolypes recueillis par C. Dawydoff sur les cétes de
’Indochine frangaise.—Mém. Mus. r. Hist. nat. Belg. (2) 12: 1-73.

*LeELOuUP, E. 1939. Notes sur quelques hydropolypes exotiques.— Bull. Mus. r. Hist. nat. Belg.
15 (51): 1-19.

LeLoup, E. 1940. Hydropolypes provenant des croisiéres du Prince Albert [°° de Monaco. —
Résult. Camp. scient. Prince Albert I 104: 1-38.

LeLoup, E. 1952. Faune de Belgique. Ccoelentérés. Bruxelles: Institut Royal des Science
Naturelles de Belgique.

LeLovup, E. 1971. Hydropolypes de la Baie du Levrier, c6te africaine occidentale. — Bull. Inst. r.
Sci. nat. Belg. 47 (35): 1-8.

LeLoup, E. 1974. Hydropolypes calyptoblastiques du Chili. Report no. 48 of the Lund
University Chile Expedition 1948-1949.— Sarsia 55: 1-61.

Lesson, R.-P. 1830. Voyage autour du monde, exécuté par ordre du roi sur la corvette La
Coquille, pendant les années 1822-1825. Zoologie. Paris: Bertrand.

LINNAEUS, C. 1758. Systema naturae ... Ed. 10. Holmiae: Laurentii Salvii.

LINNAEUS, C. 1767. Systema naturae ... Ed. 12. Holmiae: Laurentii Salvii.

MACGILLIVRAY, J. 1842. Catalogue of the marine zoophytes of the neighbourhood of Aberdeen.
—Ann. Mag. nat. Hist. (1) 9: 462-469.

Mammen, T. A. 1963. On a collection of hydroids from South India. I. Suborder Athecata. —
J. mar. biol. Ass. India 5: 27-61.

Mammen, T. A. 1965a. On a collection of hydroids from South India. II. Suborder Thecata
(excluding Family Plumulariidae).—J. mar. biol. Ass. India 7: 1-57.

MAmMMEN, T. A. 19655. On a collection of hydroids from South India. III. Family Plumulariidae.

-J. mar. biol. Ass. India 7: 291-324.

*MANTON, S. M. 1940. On two new species of the hydroid Myriothela.—Scient. Rep. Br.
Graham Ld Exped. 1: 255-293.

MANTON, S. M. 1941. On the hydrorhiza and claspers of the hydroid Myriothela cocksi.—J.
mar. biol. Ass. U.K. 35: 143-150.

MARISCAL, R. N. 1974. Nematocysts. In: MUSCATINE, L. & LENHOFF, H. M., eds. Coelemerate
biology: 129-178. New York: Academic Press.

*MARKTANNER-TURNERETSCHER, G. 1890. Die Hydroiden des k.k. naturhistorischen Hof-
museums.— Anniln naturh. Mus. Wien 5: 195-286.

*+tMARSHALL, W. 1892. Spongiologische Beitrdge. Leipzig: Leuckart.

McCrapy, J. 1856. Description of Oceania (Turritopsis) nutricula noy. spec. and the embryo-
logical history of a singular medusan larva, found in the cavity of its bell.—Proc. Elliott
Soc. nat. Hist. 1: 55-90 (pagination of reprint: 1-36).

McCrapy, J. 1858. Gymnothalmata of Charleston Harbor.—Proc. Elliott Soc. nat. Hist. 1:
103-221 (pagination of reprint: 1-119).

*MILLARD, N. A. H. 1955. New species of Hydrozoa from South Africa.— Ann. S. Afr. Mus.
41: 215-222.

*MILLARD, N. A. H. 1957. The Hydrozoa of False Bay, South Africa.— Ann. S. Afr. Mus.
43: 173-243.

*MILLARD, N. A. H. 1958. Hydrozoa from the coasts of Natal and Portuguese East Africa.
Part I. Calyptoblastea.— Ann. S. Afr. Mus. 44: 165-226.

*MILLARD, N. A. H. 1959a. Hydrozoa from the coasts of Natal and Portuguese East Africa.
Part II. Gymnoblastea.— Ann. S. Afr. Mus. 44: 297-313.

*MILLARD, N. A. H. 19595. Hydrozoa from ships’ hulls and experimental plates in Cape Town
docks.— Ann. S. Afr. Mus. 45: 239-256.

*MILLARD, N. A. H. 1961. A report on Busk’s collection of South African hydroids.— Ann.
Mag. nat. Hist. (13) 4: 203-208.

*MILLARD, N. A. H. 1962. The Hydrozoa of the south and west coasts of South Africa. Part I.
The Plumulariidae.— Ann. S. Afr. Mus. 46: 261-319.

*MILLARD, N. A. H. 1964. The Hydrozoa of the south and west coasts of South Africa. Part II.
The Lafoeidae, Syntheciidae and Sertulariidae.— Ann. S. Afr. Mus. 48: 1-56.

492 ANNALS OF THE SOUTH AFRICAN MUSEUM

*MILLARD, N. A. H. 1966a. The Hydrozoa of the south and west coasts of South Africa.
Part III. The Gymnoblastea and small families of Calyptoblastea.— Ann. S. Afr. Mus. 48:
427-487.

MILLARD, N. A. H. 19665. Hydroids of the Vema Seamount.— Ann. S. Afr. Mus. 48: 489-496.

*MILLARD, N. A. H. 1967. Hydroids from the south-west Indian Ocean.— Ann. S. Afr. Mus.
50: 169-194.

*MILLARD, N. A. H. 1968. South African hydroids from Dr. Th. Mortenson’s Java—South
Africa Expedition, 1929-1930.— Vidensk. Meddr dansk naturh. Foren. 131: 251-288.
*MILLARD, N. A. H. 1970. A new record of a moerisiid hydroid from South Africa.— Zool.

afr. 5: 275-276.

*MILLARD, N. A. H. 1973. Auto-epizoism in South African hydroids.—Publs Seto mar. biol.
Lab. 20 (Proc. Second Int. Symp. Cnidaria): 23-34.

MILLARD, N. A. H. & BouILLon, J. 1973. Hydroids from the Seychelles (Coelenterata). —
Annls Mus. r. Afr. cent. Ser. 8vo (Sci. zool) 206: 1-106.

*MILLARD, N. A. H. & BOUILLON, J. 1974. A collection of by dat from Mogambique,
East Africa.— Ann. S. Afr. Mus. 65: 1-40.

Mryasima, M. 1900. On a specimen of a gigantic hydroid, Branchiocerianthus imperator
(Allman) found in the Sagami Sea.—J. Coll. Sci. imp. Univ. Tokyo 13: 235-262.

Motz-KossowskA, S. 1905. Contribution a la connaissance des Hydraires de la Méditerranée
occidentale. I.—Hydraires Gymnoblastiques.—Archs Zool. exp. gén. (4) 3: 39-98.

MULDER, J. E. & TREBILCOCK, R. E. 1915. Victorian Hydroida. With description of new
species. Part V.—Geelong Nat. 1915: 51-59.

Naumov, D. V. 1960. Hydroids and Hydromedusae of the marine, brackish and freshwater
basins of the U.S.S.R. Opred. Faune SSSR 70: 1-585. (In Russian; translated by Israel
Program for Scientific Translations, 1969.)

NorMan, A. M. 1864. On undescribed British Hydrozoa, Actinozoa, and Polyzoa.— Ann.
Mag. nat. Hist. (3) 13: 82-90.

Norman, A. M. 1867. Report of the committee appointed for the purpose of exploring the
coasts of the Hebrides by means of the dredge. Part II. On the Crustacea, Echinodermata,
Polyzoa, Actinozoa and Hydrozoa.— Rep. Br. Ass. Advmt Sci. 1867: 193-206.

NuttTIna, C. C. 1900. American hydroids. Part I. The Plumularidae.— Spec. Bull. U.S. natn.
Mus. 4 (1): 1-285.

NutTtTinea, C. C. 1904. American hydroids. Part II. The Sertularidae.— Spec. Bull. U.S. natn.
Mus. 4 (2): 1-151.

NoutTtTina, C. C. 1915. American hydroids. Part III. The Campanularidae and the Bonne-
viellidae.— Spec. Bull. U.S. natn. Mus. 4 (3): 1-126.

NutTTING, C. C. 1927. Report on the Hydroida collected by the United States fisheries steamer
‘Albatross’ in the Philippine region, 1907-1910.— Bull. U.S. natn. Mus. 6: 195-242.

PALLAS, P. S. 1766. Elenchus zoophytorum. Haag: Van Cleef.

PALTSCHIKOWA-OsTROUMOWA, M. W. 1925. Moerisia inkermanica n. sp.—Zool. Anz. 62:
273-284.

Patriti, G. 1970. Catalogue des Cnidaires et Ctenaires des cétes Atlantiques marocaines.
Hydraires.—Trav. Inst. scient. chérif. (Zool.) 35: 11-60.

PENNYCUIK, P. R. 1959. Faunistic records from Queensland. Part V.— Marine and brackish
water hydroids.— Pap. Dep. Zool. Univ. Od 1: 141-210.

PHILBERT, M. 1936. Etudes sur Cladocoryne floccosa Rotch.— Bull. Inst. océanogr. Monaco
708: 1-16.

PICARD, J. 1951. Note sur les Hydraires littoraux de Banyuls-sur-Mer.— Vie Milieu 2: 338-349.

PICARD, J. 1955. Hydraires des environs de Castiglione (Algérie).— Bull. Stn. Aquic. Péche
Castiglione (n.s.) 7: 181-199.

PICARD, J. 1956. Les espéces et formes méditerranéenes du genre Sertularella.— Vie Milieu
7: 258-266.

PICARD, J. 1957. Etudes sur les Hydroides de la superfamille Pteronematoidea. I. Généralités. —
Bull. Inst. océanogr. Monaco 1106: 1-12.

Pictet, C. 1893. Etude sur les Hydraires de la Baie d’Amboine.— Revue suisse Zool. 1: 1-64.

PrevoT, E. 1959. Morphologie et evolution des structures tentaculaires chez les hydraires
gymnoblastes Capitata.— Recl Trav. Stn mar. Endoume Fasc. 29 (Bull. 17): 91-126.

PYEFINCH, K. A. & DOwnlina, F. S. 1949. Notes on the general biology of Tubularia larynx.
Ellis & Solander.—J. mar. biol. Ass. U.K. 28: 21-43.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 493

QUELCH, J. J. 1885. On some deep-sea and shallow-water Hydrozoa.— Ann. Mag. nat. Hist.
(5) 16: 1-20.

Quoy, J. R. & GaimarD, J. P. 1827. Observations zoologiques faites a bord de |’Astrolabe,
en Mai 1826, dans le détroit de Gibraltar.— Annls Sci. nat. 10: 1-21, 171-193, 225-239.

RAcpH, P. M. 1947. The hydroid and medusa of Cnidonema vallentini (Anthomedusae) from
Wellington, New Zealand.—Trans. R. Soc. N.Z. 76: 414-420.

RALPH, P. M. 1957. New Zealand thecate hydroids. Part I.—Campanulariidae and
Campanulinidae.— Trans. R. Soc. N.Z. 84: 811-854.

RALPH, P. M. 1958. New Zealand thecate hydroids. Part IJ.—Families Lafoeidae,
Lineolariidae, Haleciidae and Syntheciidae.— Trans. R. Soc. N.Z. 85: 301-356.

RALPH, P. M. 196la. New Zealand thecate hydroids. Part III.— Family Sertulariidae. — Trans.
R. Soc. N.Z. 88: 749-838.

RALPH, P. M. 19615. New Zealand thecate hydroids. Part IV.—The family Plumulariidae. —
Trans. R. Soc. N.Z. (Zool.) 1: 19-74.

*RANSON, G. 1949. Résultats scientifiques des croisiéres du navire-école belge ‘Mercator’ IV.
2. Méduses.— Mem. Inst. r. Sci. nat. Belg. 2: 121-158.

Repier, L. 1963. Hydraires et Bryozoaires de Madagascar. Récolte de M. G. Cherbonnier
(1959-1960).— Bull. Mus. natn. Hist. nat., Paris (2) 35: 640-643.

RepiER, L. 1967. Révision de la collection du muséum des Hydraires de Lamouroux.— Bull.
Mus. natn. Hist. nat., Paris (2) 39: 381-410.

REEs, W. J. 1938. Observations on British and Norwegian hydroids and their medusae. —J. mar.
biol. Ass. U.K. 23: 1-42.

Rees, W. J. 1939. A revision of the genus Campanulina van Beneden, 1847.— Ann. Mag. nat.
Hist. (11) 3: 433-447.

REEs, W. J. 1956a. A revision of the hydroid genus Perigonimus M. Sars, 1846.— Bull. Br. Mus.
nat. Hist. (Zool.) 3: 337-350.

Regs, W. J. 19565. On three northern species of Hydractinia.— Bull. Br. Mus. nat. Hist. (Zool.)
3: 351-362.

Rees, W. J. 1956c. On the hydroid Merona cornucopiae (Norman).—J. mar. biol. Ass. U.K.
35: 499-506.

Rees, W. J. 1957. Evolutionary trends in the classification of capitate hydroids and medusae. —
Bull. Br: Mus. nat. Hist. (Zool.) 4: 455-534.

Rees, W. J. 1958. The relationships of Moerisia lyonsi Boulenger, and the family Moerisiidae,
with capitate hydroids.— Proc. zool. Soc. Lond. 130: 537-545.

*Rees, W. J. 1962. Hydroids of the family Cytaeidae L. Agassiz, 1862.— Bull. Br. Mus. nat.
Hist. (Zool.) 8: 381-400.

*ReEES, W. J. & THURSFIELD, S. 1965. The hydroid collections of James Ritchie.—Proc. R. Soc.
Edinb. (B) 69: 34-220.

RitcHigE, J. 1907a. On collections of the Cape Verde Islands marine fauna, made by Cyril
Crossland, M.A. (Cantab.), B.Sc. (Lond.), F.Z.S., of St. Andrews University, July to
September, 1904.—Proc. zool Soc. Lond. 1907: 488-514.

*RitcuHiE, J. 19075. The hydroids of the Scottish National Antarctic Expedition.—Trans. R.
Soc. Edinb. 45: 519-545.

*RITCHIE, J. 1909. Supplementary report on the hydroids of the Scottish National Antarctic
Expedition.— Trans. R. Soc. Edinb. 47: 65-101.

RitcuiE, J. 1910a. The hydroids of the Indian Museum.— Rec. Indian Mus. 5: 1-30.

RitcuHiE, J. 19105. The marine fauna of the Mergui Archipelago, Lower Burma, collected by
Jas. J. Simpson, M.A., B.Sc., and R. N. Rudmose-Brown, D.Sc., University of Aberdeen,
February to May 1907.—The hydroids.—Proc. zool. Soc. Lond. 1910: 799-825.

RiTcuHiE, J. 1910c. Hydroids from Christmas Island, Indian Ocean, collected by C. W. Andrews,
D.Sc., F.R.S., F.Z.S., in 1908.—Proc. zool. Soc. Lond. 1910: 826-836.

RitcuiE, J. 1911. Hydrozoa (hydroid zoophytes and Stylasterina). Jn: Scientific results of the
trawling expedition of H.M.C.S. ‘Thetis’.— Mem. Aust. Mus. (4) 2: 807-869.

RitcuigE, J. 1915. The hydroids of the Indian Museum. II. Annulella gemmata, a new and
remarkable brackish-water hydroid.— Rec. Indian Mus. 11: 541-568.

Rotcu, W. D. 1871. On a new genus and species of hydroid zoophyte.—Ann. Mag. nat.
Hist. (4) 7: 227-228.

RUSSELL, F. S. 1938. On the nematocysts of Hydromedusae.—J. mar. biol. Ass. U.K. 23:
145-165.

494 ANNALS OF THE SOUTH AFRICAN MUSEUM

RUSSELL, F. S. 1953. The medusae of the British Isles. Cambridge: University Press.

RUSSELL, F. S. & REEs, W. J. 1936. On rearing the hydroid Zanclea implexa (Alder) and its
medusa Zanclea gemmosa McCrady, with a review of the genus Zanclea.—J. mar. biol.
Ass. U.K. 21: 107-130.

Sars, M. 1851. Beretning om en i sommeren 1849 foretagen zoologisk reise i Lofoten og
Finmarken.— Nyt Mag. Naturvid. 6: 121-211.

Sars, M. 1857. Bidrag til Kundskaben om Middelhavets littoral fauna, reisebemaerkninger
fra Italien. —Nyt. Mag. Naturvid. 9: 110-164.

ScHMIpDT, H.-E. 1972. Some new records of hydroids from the Gulf of Aqaba with zoo-
geographical remarks on the Red Sea area.—J. mar. biol. Ass. India 13: 27-S1.

*SPENCER, W. B. 1892. On the structure of Ceratella fusca (Gray).—Trans. R. Soc. Vict.
2 (2): 8-24.

SPLETTSTOSSER, W. 1929. Beitrage zur Kenntnis der Sertulariiden. Thyroscyphus Allm.,
Cnidoscyphus nov. gen., Parascyphus Ritchie.— Zool. Jb. (System. Abt.) 58: 1-134.

STECHOW, E. 1909. Beitrage zur Naturgeschichte Ostasiens: Hydroid-polypen der japanischen
Ostkiiste.— Abh. bayer. Akad. Wiss. (Math.-phys. K1.) Suppl. Bd. 1 (6): 1-111.

*STECHOW, E. 1911. Ueber Hydroiden der Deutschen Tiefsee-Expedition. Ein neues Genus
thecater Hydroiden.—Zool. Anz. 37: 193-197.

*STECHOW, E. 1912. Hydroiden der Miinchener zoologischen Staatssammlung.—Zool. Jb.
(System. Abt.) 32: 333-378.

STEcHOW, E. 1913. Hydroidpolypen der japanischen Ostkiste. II. Teil: Campanularidae,
Halecidae, Lafoeidae, Campanulinidae und Sertularidae, nebst Erganzungen zu den
Athecata und Plumularidae.—Abh. bayer. Akad. Wiss. (Math.-phys. KI.) Suppl. Bd.
3 (2): 1-162.

*STECHOW, E. 1919a. Neue Ergebnisse auf dem Gebiete der Hydroidenforschung.— Sber.
Ges. Morph. Physiol. Miinch. 31: 9-45.

*STECHOW, E. 19195. Zur Kenntnis der Hydroidenfauna des Mittelmeeres, Amerikas und
anderer Gebiete.— Zool. Jb. (System Abt.) 42: 1-172.

*STECHOW, E. 1921a. Neue Genera und Species von Hydrozoen und anderen Evertebraten. —
Arch. Naturgesch. 87: 248-265.

*STECHOW, E. 19215. Ueber Hydroiden der Deutschen Tiefsee-Expedition, nebst Bemerkungen
uber einige andre Formen.— Zool. Anz. 53: 223-236.

*STECHOW, E. 1921c. Neue Gruppen skelettbildender Hydrozoen und Verwandtschaftsbezie-
hungen rezenter und fossiler Formen.— Verh. dt. zool. Ges. 26: 29-31.

*STECHOW, E. 1923a. Neue Hydroiden der Deutschen Tiefsee-Expedition, nebst Bemerkungen
uber einige andre Formen.— Zool. Anz. 56: 1-20.

*STECHOW, E. 19235. Ueber Hydroiden der Deutschen Tiefsee-Expedition, nebst Bemerkungen
uber einige andre Formen.— Zool. Anz. 56: 97-119.

*STECHOW, E. 1923c. Zur Kenntnis der Hydroidenfauna des Mittelmeeres, Amerikas und
anderer Gebiete. II. Teil.— Zool. Jb. (System. Abt.) 47: 29-270.

*STECHOW, E. 1925a. Hydroiden der deutschen Tiefsee-Expedition. — Wiss. Ergebn. dt. Tiefsee-
Exped. ‘Valdivia’ 17: 383-546.

STECHOW, E. 1925b. Hydroiden von West- und Siidwestaustralien nach den Sammlungen
von Prof. Dr. Michaelsen und Prof. Dr. Hartmeyer.— Zool. Jb. (System. Abt.) 50: 191-269.

STECHOW, E. & UcHIDA, T. 1931. Report of the biological survey of Mutsu Bay. 21. Hydroiden
von Mutsu-Bai, Nord-Japan.— Sci. Rep. Téhoku Univ. (Biol.) 6: 545-571.

STRICKLAND, D. L. 1971. Differentiation and commensalism in the hydroid Proboscidactyla
flavicirrata.—Pacif. Sci. 25: 88-90.

THIEL, H. 1962. Clavopsella quadranularia nov. spec. (Clavopsellidae nov. fam.), ein neuer
Hydroidpolyp aus der Ostsee und seine phylogenetische Bedeutung.—Z. Morph. Okol.
Tiere 51: 227-260.

**THiEL, M. E. 1938. Die Leptolinae der ‘Meteor’ Expedition in systematischer Betrachtung.
1. Anthomedusae.— Zool. Anz. 121: 289-303.

THOMPSON, D’A. W. 1879. On some new and rare hydroid zoophytes (Sertulariidae and
Thuiariidae) from Australia and New Zealand.—Ann. Mag. nat. Hist. (5) 3: 97-114.

THORNELY, L. R. 1904. Report on the Hydroida collected by Professor Herdman, at Ceylon,
in 1902.—Rep. Govt Ceylon Pearl Oyster Fish. Gulf Manaar Suppl. Rep. 8: 107-126.

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 495

Torrey, H. B. 1902. The Hydroida of the Pacific coast of North America, with especial
reference to the species in the collection of the University of California.— Univ. Calif.
Publs Zool. 1: 1-104.

Totton, A. K. 1930. Coelenterata. Part V. Heoue — Nat. Hist. Rep. Br. Antarct. Terra
Nova Exped. 5: 131-252.

Totton, A. K. 1954. Siphonophora of the Tidiain Ocean together with systematic and biological
notes on related specimens from other oceans.—‘ Discovery’ Rep. 27: 1-162.

TREBILCOCK, R. E. 1928. Notes on New Zealand Hydroida.—FProc. R. Soc. Vict. 41: 1-31.

Ucuiwa, T. 1964. A new hydroid species of Cytaeis, with some remarks on the interrelation-
ships in the Filifera.—Pub/s Seto mar. biol. Lab. 12: 133-144.

Ucnipa, T. & OxupbaA, S. 1941. The hydroid Lar and the medusa Proboscidactyla.—J. Fac.
Sci. Hokkaido Univ. (6) 7: 431-440.

VALKANOV, A. 1938. Uebersicht der Hydrozoenfamilie Moerisidae. —Jb. Univ. Sofia phys.-math.
Fak. 34: 251-320.

VALKANOV, A. 1950. Gibt es ‘Koloniebildende’ Moerisiiden?—Trud. morsk. biol. Sta. Stalin
15: 187-192.

VALKANOV, A. 1954. Revision der Hydrozoenfamilie Moerisiidae.—Trud. morsk. biol. Sta.
Stalin 18: 33-47.

+ VAN BENEDEN, P. J. 1844. Recherches sur l’embryogénie des Tubulaires, et l’histoire naturelle
des différents genres de cette famille qui habitent la céte d’Ostende.—Mém Acad. r.
Belg. 17: 1-72.

VAN GEMERDEN-HOOGEVEEN, G. C. H. 1965. Hydroids of the Caribbean: Sertulariidae,
Plumulariidae and Aglaopheniidae.— Stud. fauna Curacao 22: 1-87.

*VANHOFFEN, E. 1910. Die Hydroiden der Deutschen Siidpolar-Expedition 1901-1903.—
Dt. Siidpol.-Exped. 11: 269-340.

*VANHOFFEN, E. 1911. Die Anthomedusen und Leptomedusen der deutschen Tiefsee-
Expedition 1898-1899.— Wiss. Ergebn. dt. Tiefsee-Exped. ‘Valdivia’ 19: 193-233.

*VANHOFFEN, E. 1912. Die craspedoten Medusen der Deutschen Stidpolar-Expedition 1901-
1903.— Dt. Siidpol. Exped. 13: 351-395.

*VANHOFFEN, E. 1920. Coelenterata pelagica.— Beitr. Kennt. Meeresfauna Westafr. 3: 16-17.

VANNUCCI, M. 1949. Hydrozoa do Brazil—Bolm Fac. Filos. Ciéne. Univ. S. Paulo (Zool.)
14: 219-265.

VANNUuCCI, M. 1954. Hidrozoa e Scyphozoa existentes no Instituto Oceanografico. Il.—Bolm
Inst. Oceanogr., S. Paulo 5: 95-138.

VANNUCCI, M. & REES, W. J. 1961. A revision of the genus Bougainvillia (Anthomedusae).—
Bolm Inst. Oceanogr., S. Paulo 11: 57-100.

VERSLUYS, J. 1899. Hydraires Calyptoblastes recueillis dans la Mer des Antilles pendant l’une
des Croisiéres accomplies par le Comte R. de Dalmas sur son yacht “Chazalie’.—Mém.
Soc. zool. Fr. 12: 29-58.

VERVOORT, W. 1941. Biological results of the Snellius Expedition. XI. The Hydroida of the
Snellius Expedition (Milleporidae and Stylasteridae excluded). — Temminckia 6: 186-240.

VERVOORT, W. 1946a. Hydrozoa (C 1). A. Hydropolypen.— Fauna Ned. 14: 1-336.

*VERVOORT, W. 19465. Exotic hydroids in the collections of the Rijksmuseum van Natuurlijke
Historie and the Zoological Museum at Amsterdam.—Zodl. Meded. Leiden 26: 287-351.

VERVOORT, W. 1959. The Hydroida of the tropical west coast of Africa.—Atlantide Rep.
5: 211-325.

VERVOORT, W. 1962. A redescription of Solanderia gracilis Duchassaing & Michelin, 1846,
and general notes on the family Solanderiidae (Coelenterata: Hydrozoa).— Bull. mar. Sci.
Gulf Caribb. 12: 508-542.

VERVOORT, W. 1964. Notes on the distribution of Garveia franciscana (Torrey, 1902) and
Cordylophora caspia (Pallas, 1771) in the Netherlands. —Zoé/. Meded. Leiden 39: 125-146.

VERVOORT, W. 1966a. Skeletal structure in the Solanderiidae and its bearing on hydroid
classification. In: The Cnidaria and their evolution. Symp. zool. Soc. Lond. 16: 373-396.

*VERVOORT, W. 19665. Bathyal and abyssal hydroids. Galathea Rep. 8: 97-174.

VERVOORT, W. 1967. The Hydroida and Chondrophora of the Israel South Red Sea Expedition,
1962.— Bull. Sea Fish. Res. Stn Israel 43: 18-54.

VERVOORT, W. 1968. Report on a collection of Hydroida from the Caribbean region, including
an annotated checklist of Caribbean hydroids.— Zool. Verh., Leiden 92: 1-124.

496 ANNALS OF THE SOUTH AFRICAN MUSEUM

VERVOORT, W. 1972. Hydroids from the ‘Theta’, “Vema’ and ‘Yelcho’ cruises of the Lamont-
Doherty Geological Observatory.— Zool. Verh., Leiden 120: 1-247.

VON SCHENCK, D. A. 1965. Die Kormentektonik der Plumulariiden (Coelenterata, Hydrozoa).

— Revue suisse Zool. 72: 885-1021.

*WarREN, E. 1906a. On Halocordyle cooperi sp. n.; a hydroid from the Natal coast.— Ann.
Natal Mus. 1: 73-81.

*WaRREN, E. 19065. On Tubularia solitaria sp. n., a hydroid from the Natal coast.— Ann. Natal
Mus. 1: 83-96.

*WARREN, E. 1907a. On Parawrightia robusta gen. et sp. nov., a hydroid from the Natal coast;
and also an account of a supposed schizophyte occurring in the gonophores.— Ann. Natal
Mus. 1: 187-208.

*WARREN, E. 1907b. Note on the variation in the arrangement of the capitate tentacles in the
hydroid, Halocordyle cooperi Warren.— Ann. Natal Mus. 1: 209-213.

*WARREN, E. 1908. Ona collection of hydroids, mostly from the Natal coast.— Ann. Natal Mus.
1: 269-355.

*WARREN, E. 1909. On Lafoea dispolians sp. n., a hydroid parasitic on Sertularia bidens Bale. —
Ann. Natal Mus. 2: 105-112.

*WARREN, E. 1914. On the development of the planula in a certain species of Plumularian
hydroid.— Ann. Natal Mus. 3: 83-102.

*WARREN, E. 1916. On Hydrichthys boycei, a hydroid parasitic on fishes.— Ann. Durban Mus.
1: 172-187.

*WARREN, E. 1919a. On the anatomy of a new South African hydroid, Bimeria rigida sp. n.—
Ann. Natal Mus. 4: 1-18.

*WARREN, E. 1919b. Observations on cellular degeneration and the formation of pigment
in certain hydroids.— Ann. Natal Mus. 4: 103-135.

WATSON, J. E. 1973. Pearson Island Expedition 1969. Hydroids.—Trans. R. Soc. S. Aust.
97: 153-200.

WEILL, R. 1934. Contribution a l’étude des Cnidaires et de leurs nématocystes. I. Recherches
sur les nématocystes. II. Valeur taxonomique du cnidome.— Trav. Stn zool. Wimereux 10:
1-347; 11: 349-701.

WEILL, R. 1937. Contribution a l’étude des Pteronemida (Hydrozoaires).—Le cnidome d
Cladocoryne floccosa Rotsch et son interprétation (d’aprés les documents laissés par feu
Maurice Philbert).— Bull. Inst. océanogr. Monaco 719: 1-11.

WEILL, R. 1964. Une nouvelle catégorie de nématocystes: existence, chez Apolemia uvaria
Eschh., de nématocystes birhopaloides.—C. r. hebd. Séanc. Acad. Sci., Paris 258: 4343-
4344.

WERNER, B. 1965. Die Nesselkapseln der Cnidaria, mit besonderer Berucksichtigung der
Hydroida.— Helgoldnder wiss. Meeresunters. 12: 1-39.

WERNER, B. 1968. Polypengeneration und Entwicklungeschichte von Eucheilota maculata
(Thecata — Leptomedusae). — Helgoldnder wiss. Meeresunters. 18: 136-168.

WINEERA, J. S. 1968. The histology of a species of Solanderia Duchassaing & Michelin, 1846,
from Auckland Harbour, New Zealand, with special reference to the internal skeleton
of the Solanderiidae (Coelenterata, Hydrozoa).— Zoology Publs Vict. Univ. Coll. 43: 5-11.

WRIGHT, T.S. 1859. Observations on British zoophytes.— Edinb. New phil. J. (n.s.) 10: 105-114.

YAMADA, M. & KONNo, K. 1973. Polyp and medusa of the hydroid Sphaerocoryne multi-
tentaculata (Warren) from Japan.—Publs Seto mar. biol. Lab. 20 (Proc. Second Int.
Symp. Cnidaria): 103-109.

INDEX TO SCIENTIFIC TERMS

Abaxial, 18 Desmoneme, 20

Abcauline, 14 Diaphragm, 8, 14, 27, 31
Aboral tentacle, 8 * Dichotomous branching, 12
Acrocyst, 19, 20, 245 — sympodium, 12
Actinula, 20, 31 Dioecious, 20

Adaxial, 18
Adcauline, 14
Adnate, 14
Adradius, 17

Ectodermal statocyst, 18
Endodermal canals, 8, 27, 31
— statocyst, 18

s — lamella, 19
Alternate branching, 12 Boones tet 23

— hydrothecae, 15 ; j

: ? Epizootic, 22
Anchoring filaments, 7, 27 Bumedusoid: (3
Anisorhiza, 20 Burytele, 21
Annular thickening, 14, 200 Becca pore. 18

Annulation, 11

Anterior face, 15 Exumibrella, 16

Apical canal, 17 Fascicled stem, 11

— process, 17 Fasciculation, types in Plumulariidae, 326
Apophysis, 11 Fenestra, 231

Asexual reproduction, 22 Filiform tentacle, 9, 17

— — in Moerisiidae, 465 Fission, 22, 465

Athecate hydranth, 11 Fixed sporosac, 19

Atrichous isorhiza, 21 Flexuous stem, 239

Attachment disc, 7

Gastral cavity, 8
Auto-epizootic, 22, 326 Mes

Gastrozooid, 9

Basitrichous isorhiza, 21 Geniculate stem, 11, 200
Blastostyle, 9 Glutinant, 21

Blind caecum, 8, 231, 243 Gonad, 18

‘Branched’ tentacles, 18, 64 Gonophore, 11, 15

Branching, types, 11 Gonophore, types, 18

Budding, 22, 465 Gonotheca, 11, 15

Butt, 20 Gonozooid, 9

Caecum, blind, 8, 231, 243 Growth, types, 10

Campanulate hydrotheca, 14, 200 Haploneme, 20

Capitate tentacle, 9, 17 Helicoid sympodium, 12
Capsule, 20 Heteromedusoid, 19

Cauline hydrotheca, 15 Heteromerous hydrocladium, 327
— nematotheca, 15 Heteroneme, 20

Circular canal, 17 Heterotrichous anisorhiza, 20
Cirrus, 18 Hinge-joint, 22, 240, 327
Cnidocyst, 20 Hollow tentacle, 9, 17

Cnidome, 21 Homomerous hydrocladium, 327
Cnidocyst, see nematocyst Hydranth, 7, 8

Cnidophore, 21, 68, 78, 469 Hydrocaulus, 7

Coelenteron, 7 Hydrocladium, 14, 40, 325
Coenosarc, 7 Hydrophore, 58, 141

— naked, 16 Hydropore, 14, 241
Commensalism, 22 Hydrorhiza, 7

Commensals, list, 23 Hydrotheca, 11, 14

Contiguous hydrothecae, 240 Hydrotheca, types in Sertularella, 240
Coppinia, 16, 167 Hypostome, 8, 17

Corbula, 16, 329

Cordylus, 18 Incrusting hydrorhiza, 7

Internal skeleton, 16

Cryptomedusoid, 19 — teeth, 14, 242
Dactylozooid, 9 Internodal septum, 11
Depths, 4 Internode, 11

497

498

Interradius, 17
Intertentacular web, 9
Intrathecal septum, 14, 241
Isorhiza, 20

Lateral nematotheca, 15
Ligula, 244

Macrobasic eurytele, 21

— mastigophore, 21
Mamelon, 328

Marginal bulb, 17

— teeth, 14, 242

— tentacle, 17

— vesicle, 18

Marsupium, 20, 245
Mastigophore, 21
Measurements, 4
Meconidium, 202

Median inferior nematotheca, 15
Medusa, 6, 16

Medusae, South African records, 481
Merotrichous isorhiza, 21
Microbasic eurytele, 21

— mastigophore, 21
Moniliform tentacle, 8, 17
Monoecious, 20
Monopodial growth, 10, 11
Mouth, 7, 17

Naked coenosarc, 16
Nematocysts, 5, 20
—., Classification, 20
—., structure, 20
Nematophore, 10
Nematotheca, 15
Nematothecae, arrangement in Plumulari-
idae, 15, 327
—, names, 15
Nettle ring, 78
Node, 11

Ocellus, 18

Operculum, 14, 242

—, types in Campanulinidae, 127
Opposite branching, 12

— hydrothecae, 15

Oral lip, 17

— tentacle, 8, 17

Parasites, list, 23
Pedal disc, 7, 465
Pedicel, 14
Pedicellate hydrotheca, 14
Peduncle, 17
Penetrant, 21
Perisarc, 11
Perradius, 17
Phylactocarp, 16, 329
Pinnate branching, 12
Planula, 20

Podium, 11

ANNALS OF THE SOUTH AFRICAN MUSEUM

Podocyst, 22, 465
Polymorphism, 9

Polyp, 6, 7

Posterior face, 15
Pseudodiaphragm, 142
Pseudohydrotheca, 11, 90

Radial canal, 17, 27
Refringent nodules, 141
Regeneration, 22

Sarcostyle, 10, 327
Schizogeny, 22

Scorpioid sympodium, 12
Sense-organs, types, 18
Septum, internodal, 11
—, intrathecal, 14, 241
Sessile hydrotheca, 14
Skeleton, internal, 16
Solid tentacle, 9, 17
Spadix, 19

Spines, 20, 104

Spiral branching, 12

— zooid, 10

Sporosac, fixed, 19
Statocyst, 18

Statolith, 18

Stenotele, 21

Stiff stem, 239

Sting cell, see nematocyst
Stolon, 7

Stolonial colony, 10
Stolonization, 22, 465
Stomach, 17

Styloid, 19

Subalternate hydrothecae, 15
Subopposite hydrothecae, 15
Subumbrella, 16
Subumbrellar cavity, 17
Superior nematotheca, 15
Sympodial branching, 12
— growth, 11
Sympodium, 11, 12

Teeth, internal, 14, 242
—, marginal, 14, 242
Tentacle, 8

—, marginal, 17
Tentacles, types, 8
Tentaculozooid, 10
Thecate hydranth, 11
Trabecula, 16, 58
Tube, 20

Unfascicled stem, 11

Velum, 17
Villi, 8
Volvent, 20

Web, intertentacular, 9
Whorled branching, 12

INDEX TO SPECIES

Synonyms are printed in italics; names of families and subfamilies in capitals; pages with
figures in bold type. Only the main references are given.

abietina, Abietinaria, 247 — brevirostris, 480

—, Sertularia, 247 — chalarocarpa, 412
Abietinaria, 246 — conferta, 413

— abietina, 247 — cupressina, 408, 410

— laevimarginata, 246, 248 — delicatula, 455
abyssicola, Cryptolarella, 172, 173 — dichotoma, 413

—, Cryptolaria, 172 — filicula, 416
acanthostoma, Crateritheca, 253, 255 — flexuosa, 457, 458

—, Sertularia, 253 — formosa, 461

—, Stereotheca, 475 — frutescens, 478

Acladia, 349 — fusca, 447

— africana, 478 — gaimardi, 392
Acryptolaria, 168 — glutinosa, 352

— angulata, 171 — heterodonta, 413

— conferta, 169, 170 — holubi, 415

— pectinata, 174 — latecarinata, 409, 410
— rectangularis, 171, 173 — lignosa, 425

acuta, Sertularia, 312 — ligulata, 447

—, Tridentata, 312 — longirostris, 445
adhaerans, Kirchenpaueria, 376 — macgillivrayi, 408
aequalis, Cnidoscyphus, 321 — parasitica, 461

—, Thyroscyphus, 321, 322 — parvula, 413

Aequorea, 129 — patula, 447

— aequorea, 482 — pennatula, 446

— africana, 130, 131 — philippina, 449

— australis, 482 — phoenicea, 451

— coerulescens, 482 — pluma, 411

— conica, 482 — — dichotoma, 413, 414
— macrodactyla, 482 — — parvula, 413, 414

— pensilis, 482 — — pluma, 412, 414

— sp., 482 — — y. typica, 412
aequorea, Aequorea, 482 — plumifera, 460
AEQUOREIDAE, 129, 482 — plumosa, 447

affinis, Annatiara, 481 — pusilla, 416

africana, Acladia, 478 — tubulifera, 416

—, Aequorea, 130, 131 — vitiana, 454

—, Antennella, 331, 333 AGLAOPHENIINAE, 407
—, Campanularia, 204, 205 Aglaophenopsis, 416

—, Campanularia, 474 agulhensis, Sertularella, 279, 280
—, Halicornaria, 433 alatus, Cladocarpus, 418
—, Hydrocorella, Frontispiece, 116, 117 allmanii, Gymnangium, 434, 435
—, Plumularia, 359 —, Halicornaria, 434

—, Sertularella, 278, 280 — var., Halicornaria, 446
—, Zygophylax, 189, 191 alopecura, Aglaophenia, 415
africanum, Gymnangium, 433, 435 alternata, Plumularia, 352
Agastra, 203 altispina, Hydractinia, Frontispiece, 108, 110
— mira, 208 amirantensis, Egmundella, 131, 133
— rubra, 208 Amphicodon unicus, 32
Aglaophenia, 407 Amphisbetia, 247

— alopecura, 415 — bidens, 249

— arcuata, 436 — maplestonei, 248, 249
— arquata, 480 — minima, 248, 250

— attenuata, 415 — operculata, 251, 252

— bifida, 458 angulata, Acryptolaria, 171

499

500 ANNALS OF THE SOUTH AFRICAN MUSEUM

angulata, Laomedea, 223
angustum, Eudendrium, 79, 81
Annatiara affinis, 481

annexa, Leuckartiara, 481
annulatum, Eudendrium, 87
annulaventricosa, Sertularella, 279, 280
anonyma, Heterotiara, 481
antarctica, Lafoea, 177

—, Reticularia, 177
antarcticum, Eudendrium, 80, 81
—, Filellum, 176, 177

—, Filellum, 178

Antennella, 330

— africana, 331, 333

— natalensis, 332

— quadriaurita f. africana, 331
— secundaria, 332, 333

— serrata, 331

Antennellopsis, 330

antennina, Antennularia, 381
—, Nemertesia, 381, 382

—, Sertularia, 381

Antennopsis scotiae, 338
Antennularia, 381

— antennina, 381

— cymodocea, 384

— decussata, 384

— hartlaubi, 384

— irregularis, 381

— ramosa, 386

antipathes, Lictorella, 190

—, Sertularia, 190

—, Zygophylax, 190, 191
antonbruuni, Plumularia, 389, 391
aperta, Sertularia, 251

arborea, Sertularella, 476
arboriformis, Sertularella, 316
—, Symplectoscyphus, 315, 316
arbuscula, Sertularella, 280, 281
—, Sertularia, 281

arcta, Coppinia, 177

arcuata, Aglaophenia, 436

—, Halicornaria, 436
arcuatum, Gymnangium, 436, 439
argentea, Sertularia, 313
armata, Brucella, 192

—, Oceania, 481

—, Zygophylax, 192, 194
arquata, Aglaophenia, 480
articulata, Dymella, 273

—, Salacia, 272, 273

—, Sertularia, 273

—, Thuiaria, 273

Asyncoryne, 63

—ryniensis, 53, 63
ASYNCORYNIDAE, 63
atrorubens, Dehitella, 61

—, Solanderia, 61

attenuata, Aglaophenia, 415

—, Diphasia, 260
australis, Aequorea, 482
—, Pennaria, 41

bathybia, Paragotoea, 481
bathyzonatus, Cladocarpus, 418
beanii, Halecium, 144, 146

—, Thoa, 144

bedoti, Sphaerocoryne, 53, 54
bellicosa, Corhiza, 334, 336
benthophila, Lafoea, 185, 186
bethae, Ectopleura, 32, 33
betheris, Tubularia, 32
biarmata, Zygophylax, 193, 194
Bicorona, 49

— elegans, Frontispiece, 49, 50
bicuspidata, Laomedea, 226

—, Obelia, 226, 228

bidens, Amphisbetia, 249

—, Odontotheca, 475

—, Sertularia, 249

bidentata, Dentitheca, 380, 382
—, Plumularia, 380

bifida, Aglaophenia, 458
bigelowi, Calycopsis, 481
Bimeria, 91

— fluminalis, 91, 92

— rigida, 93, 94

— vestita, 94, 95

bipinnata, Diphasia, 260
Bougainvillia, 95

— fruticosa, 97

— fulva, 481

— macloviana, 96, 98, 481

— meinertiae, 97, 98

— muscus, 97

— platygaster, 481

— ramosa, 97, 98

— sp. 97

— vanbenedeni, 97
bougainvillii, Cyanaea, 96
BOUGAINVILLUDAE, 88, 481
boycei, Hydrichthys, 122, 124
Branchiaria, 28
Branchiocerianthus, 28

— imperator, 28, 29
brevirostris, Aglaophenia, 480
—, Plumularia, 454

—, Thecocarpus, 454, 456
Brucella, 188

— armata, 192

Bythotiara murrayi, 481

caciniformis, Diplocyathus, 158
—, Hydrodendron, 158, 159
—, Ophiodes, 158

—, Ophiodissa, 158
Calamphora, 251

— campanulata, 252, 253
calcarata, Hebella, 182

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 501

calceolifera, Campanularia, 223
—, Eulaomedea, 222, 223
—,-Laomedea, 475

Calicella, 132

— oligista, 131, 132
CALICELLIDAE, 128
caliculata, Campanularia, 208
Calycella oligista, 132
CALYCOPSIDAE, 481
Calycopsis bigelowi, 481

— chuni, 481

Campanularia, 203

— africana, 204,205 ~

— africana, 474

— calceolifera, 223

— caliculata, 208

— compressa, 208

— corrugata, 188

— crenata, 204, 207

— crenata, 206

— delicata, 206, 207

— fastigiata, 137

— fruticosa, 187

— gracilis, 208

— gracillima, 187

— gravieri, 215

— hincksii, 205, 208

— integra, 208, 210

— laminacarpa, 205, 211

— mollis, 212

— morgansi, 212, 216

— mutabilis, 188

— paulensis, 221

— pecten, 212, 214

— roberti, 213, 214

— serpens, 177

— tincta, 204, 474
CAMPANULARIIDAE, 200, 482
campanulata, Calamphora, 252, 253
—, Sertularella, 253
Campanulina turrita, 140
CAMPANULINIDAE, 126
canalifera, Hydractinia, 109, 110
Candelabrum, 45

capensis, Cnidonema, 57

—, Myriothela, 44, 45

—, Sertularella, 282, 284

— delicata, Sertularella, 279
capillare, Eudendrium, 81, 82
—, Eudendrium, 85

carnea, Hydractinia, 113

—, Podocoryne, 481

—, Podocoryne, 113
carneum, Eudendrium, 82, 83
—, Eudendrium, 87

carolinae, Phialucium, 482
Ceratella, 58

— labyrinthica, 63

— minima, 59

— procumbens, 59

— spinosa, 59

ceylonensis, Eirene, 482
chalarocarpa, Aglaophenia, 412
chiquitita, Lovenella, 135, 136
Chromatonema rubrum, 481
chuni, Calycopsis, 481
ciliata, Nemertesia, 382, 383
Cirrholovenia polynema, 482
Cladocarpella, 416

— multiseptata, 418
Cladocarpus, 416

— alatus, 418

— bathyzonatus, 418

— crepidatus, 417, 419

— distomus, 418, 419

— dofleini, 419, 421

— flexilis, 423

— inflatus, 422, 424

— leloupi, 423, 424

— lignosus, 425, 427

— millardae, 424, 426

— multiapertus, 418

— paries, 483, 484

— plumularioides, 418

— sibogae, 418

— sinuosus, 427, 428

— tenuis, 429, 431

— unicornus, 429, 431

— valdiviae, 431, 432
Cladocoryne, 65

— floccosa, 60, 65
CLADOCORYNIDAE, 64
CLADONEMIDAE, 55, 481
Clava, 71

— sp. 71, 73

Clavactinia, 106

— multitentaculata, 105, 106
Clavatella multitentaculata, 54
CLAVIDAE, 69, 481
Clavopsella, 100

— navis, 100, 102

— quadranularia, 100

Clytia, 213

— compressa, 474

— elongata, 221

— gracilis, 217

— gravieri, 215, 216

— hemisphaerica, 217, 219
— hummelincki, 218, 219

— johnstoni, 217

— latitheca, 216, 220

— paradoxa, 219, 220

— paulensis, 221, 222

— raridentata, 474

— serrata, 215

— ulvae, 221

— warreni, 221,222
Cnidonema, 56

502 ANNALS OF THE SOUTH AFRICAN MUSEUM

Cnidonema capensis, 57

— vallenti, 57

Cnidoscyphus, 321

— aequalis, 321

coactum, Dictyocladium, 256, 262
coerulescens, Aequorea, 482
compressa, Campanularia, 208
—, Clytia, 474

conferta, Acryptolaria, 169, 170
—, Aglaophenia, 413

—, Cryptolaria, 169

—, Dicoryne, 101, 102
confertum, Eudendrium, 101
congregata, Sertularella, 283, 284
conica, Aequorea, 482

—, Pandea, 481

conspecta, Gattya, 343, 345

—, Plumularia, 343

constricta, Halopteris, 355
cooperi, Halocordyle, 41
Coppinia arcta, 177

Corhiza, 334

— bellicosa, 334, 336

— mortenseni, 335, 336

— pannosa, 337, 339

— scotiae, 338, 339

— valdiviae, 340, 342
cornicina, Dynamena, 261, 262
cornucopia, Hydrodendron, 160, 161
—, Zygophylax, 160
cornucopiae, Merona, 74, 74
—, Tubiclava, 74

cornuta, Halicornaria, 436
corrugata, Campanularia, 188
—, Hebella, 188

—, Hincksella, 231, 233
Corydendrium, 72

— parasiticum, 72, 73
Corymorpha, 30

Corymorpha sp., 30

CORY MORPHIDAE, 26
Coryne, 51

— eximia, 52

— pusilla, 50, 51

— sp. 471

CORYNIDAE, 48, 481
Cosmetirella davisi, 481
crassipes, Serturella, 281
Crateritheca, 253

— acanthostoma, 253, 255
crenata, Campanularia, 204, 207
—, Campanularia. 206

—, Eucopella, 204

—, Orthopyxis, 204

crepidatus, Cladocarpus, 417, 419
crinoidea, Sertularia, 475
crisioides, Dynamena, 263, 265
cristata, Plumularia, 416

crocea, Parypha,38

—, Tubularia, 38

crosslandi, Dentitheca, 380
—, Plumularia, 380
Cryptolarella, 17°

— abyssicola, 172, 173
Cryptolaria, 174

— abyssicola, 172

— conferta, 169

— pectinata, 174, 176

— rectangataris, 171

cuneata, Sertularella, 476
cupressina, Aglaophenia, 408, 410
Cyanaea bougainvillii, 96
cyathifera, Lictorella, 190
Cyclonia pusilla, 232
cylindrica, Hincksella, 232
—, Sertularella, 232

— pusilla, Hincksella, 232, 233
cylindricum, Synthecium, 232
cymodocea, Antennularia, 384
—, Nemertesia, 384, 387
CYTAEIDAE, 118, 481
Cytaeis, 119

— nassa, 119, 120

Cytaeis tetrastyla, 481

davisi, Cosmetirella, 481
deciduum, Eudendrium, 84, 86
decussata, Antennularia, 384

—, Nemertesia, 384

Dehitella, 58

— atrorubens, 61

delicata, Campanularia, 206, 207
—, Orthopyxis, 206

delicatula, Aglaophenia, 455

—, Plumularia, 455

delicatulum, Halecium, 145, 146
delicatulus, Thecocarpus, 455, 456
dendriformis, Soleniopsis, 72
Dendroclava, 76

Dendrocoryne, 58

dentigerum, Synthecium, 235, 237
Dentitheca, 380

— bidentata, 380, 382

— crosslandi, 380

desmoides, Salacia, 274, 275

—, Sertularia, 274
Desmoscyphus inflatus, 311
Dianaea rotunda, 137

diaphana, Sertularella, 285, 286
—, Thuiaria, 285

dichotoma, Aglaophenia, 413

—, Laomedea, 227

—, Monostaechas, 365

—, Obelia, 227, 228

—, Sertularia, 227

dichotomum, Halec‘um, 147, 149
Dicoryne, 101

— conferta, 101, 102

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA

Dicoryne sp. 101
Dictyocladium, 254

— coactum, 256, 262
diegensis, Phialopsis, 482
digitale, Nigellastrum, 257
digitalis, Diphasia, 257, 259
—, Sertularia, 257
Dinotheca, 416

— dofleini, 421

diogenes, Hydractinia, 109, 112
Diphasia, 256

— attenuata, 260

— bipinnata, 260

— digitalis, 257, 259

— heurteli, 258, 259

— nigra, 261

— pinaster, 258

— pinnata, 261

— tetraglochina, 259, 260
Diphasiella, 256
Diplocheilus, 377

— mirabilis, 377
Diplocyathus, 157

— caciniformis, 158

— gracilis, 164

Dipurena halterata, 481
disjuncta, Salacia, 274, 275
dispolians, Hebella, 179, 180
—, Lafoea, 180

distans, Dynamena, 306

—, Sertularia, 306, 308
disticha, Halocordyle, 39, 41
—, Pennaria, 41

distomus, Cladocarpus, 418, 419
dofleini, Cladocarpus, 419, 421
—, Dinotheca, 421
doliolum, Thuiaria, 320
dorhni, Turritopsis, 76
dubia, Obelia, 227

—., Sertularella, 285

— magna, Sertularella, 287, 288
dumortieri, Ectopleura, 481
dumosa, Lafoea, 185

—, Sertularia, 185

Dymella, 271

— articulata, 273
Dynamena, 261

— cornicina, 261, 262

— crisioides, 263, 265

— distans, 306

— gibbosa, 266

— marginata, 311

— obliqua, 266, 267

— operculata, 475

— pluridentata, 253

— pumila, 268

— quadridentata, 265, 266
— tubuliformis, 475

— turbinata, 312
dyssymetrum, Halecium, 149, 150

echinocarpa, Hincksella, 233, 234
—, Sertularia, 234
echinulata, Plumularia, 372
Ectopleura, 32

— bethae, 32, 33

— dumortieri, 481
Egmundella, 132

— amirantensis, 131, 133
Eirene ceylonensis, 482

— hexanemalis, 482

— menoni, 482

— palkensis, 482
EIRENIDAE, 129, 482

elegans, Bicorona, Frontispiece, 49, 50

—, Synthecium, 236, 237
Eleutheria vallentini, 57

ellisi f. mediterranea, Sertularella, 294

ellisti, Thuiaria, 273
elongata, Clytia, 221

—, Sertularia, 313

—, Stereotheca, 313, 315
enigmatica, Zygophylax, 164
Eucalix paradoxus, 220
Eucheilota sp. 482
Eucopella, 203

— crenata, 204
EUDENDRIIDAE, 77
Eudendrium, 79

— angustum, 79, 81

— annulatum, 87

— antarcticum, 80, 81

— capillare, 81, 82

— capillare, 85

— carneum, 82, 83

— carneum, 87

— confertum, 101

— deciduim, 84, 86

— motzkossowskae, 84, 86
— parvum, 82

— ramosum, 85, 92

— ramosum, 97

— ritchiei, 87, 89

— simplex, 84
Eulaomedea, 223

— calceolifera, 222, 223
Euphysora furcata, 481
Eutima levuca, 482
EUTIMIDAE, 129, 482
eximia, Coryne, 52

—, Sarsia, 52, 53

—, Syncoryne, 52
exserta, Halicornaria, 438
exsertum, Gymnangium, 438, 439

falcata, Hydrallmania, 269
—, Plumularia, 269

503

504 ANNALS OF THE SOUTH AFRICAN MUSEUM

falcata, Sertularia, 269
falklandica, Phialella, 482

falsa, Sertularella, 476

fastigiata, Campanularia, 137

—, Stegopoma, 137

faurei, Monostaechas, 362, 364
ferlusi, Gymnangium, 440, 448

—, Halicornaria, 440

filamentosa, Plumularia, 447
filamentosus, Lytocarpus, 447, 448
Filellum, 175

— antarcticum, 176, 177

— antarcticum, 178

— serpens, 177

— serratum, 178, 179

filicaulis, Plumularia, 390, 391
filicula, Aglaophenia, 416
filiformis, Sertularella, 319

—, Sertularia, 319

—, Symplectoscyphus, 319

fisheri v. simplex, Monostaechas, 365
flabellum, Sertularella, 284, 289
—, Thecocladium, 289

flexile, Halecium, 145

flexilis, Cladocarpus, 423

flexuosa, Aglaophenia, 457, 458

—, Plumularia, 398

flexuosus, Thecocarpus, 457

—, Thecocarpus, 458, 461

— flexuosus, Thecocarpus, 458, 459
— plumiferus, Thecocarpus, 460, 462
— solidus, Thecocarpus, 459, 460
— umbellatus, Thecocarpus, 461, 462
floccosa, Cladocoryne, 60, 65
fluminalis, Bimeria, 91, 92
formosa, Aglaophenia, 461

—, Plumularia, 461

formosus, Thecocarpus, 452, 461
frutescens, Aglaophenia, 478

—, Schizotricha, 368

—, Sertularia, 368

fruticosa, Bougainvillia, 97

—, Campanularia, 187

—, Lafoea, 186, 187

—, Spongia, 323

fruticosus, Thyroscyphus, 323, 324
fulva, Bougainvillia, 481

furax, Hebella, 181, 183

furcata, Euphysora, 481

fusca, Aglaophenia, 447

fusiformis, Sertularella, 286, 289
—, Sertularella, 278

—, Sertularia, 289

gaimardi, Aglaophenia, 392
gardineri, Halecium, 162

—, Hydrodendron, 162, 163
—, Leuckartiara, 481
Gattya, 341

— conspecta, 343, 345

— heurteli, 344, 345

— humilis, 345, 346

— multithecata, 348, 350
gaudichaudi, Sertularia, 320
gayi, Sertularella, 305

gayi, Sertularia, 305

gaymardi, Plumularia, 372
gemellipara, Halopteris, 350, 351
geminocarpa, Zygophylax, 194, 195
Gemmaria, 68

geniculata, Laomedea, 229

—, Lictorella, 195

—, Obelia, 228, 229

—, Sertularia, 229

—, Zygophylax, 195, 196
Geryonia octona, 123

giardi, Thecocarpus, 458

— y. solidus, Thecocarpus, 460
gibbosa, Dynamena, 266
gilchristi, Sertularella, 288, 290
glutinosa, Aglaophenia, 352

—, Halopteris, 352, 353

—, Plumularia, 352

goliathus, Sertularella, 291, 293
Gonothyraea, 224

— loveni, 224, 225

gracile, Halecium, 145
gracilicaule, Gymnangium, 441
— gracilicaule, Gymnangium, 442, 443
— lignosum, Gymnangium, 442, 443
gracilicaulis, Halicornaria, 441, 443
—, Lytocarpus, 441

gracilis, Campanularia, 208

—, Clytia, 217

—, Diplocyathus, 164

—, Hydrodendron, 163, 164
—, Laomedea, 217

—, Ophiodes, 164

—, Sarsia, 481

—, Sertularia, 306, 319
gracillima, Campanularia, 187
—, Lafoea, 187

— v. benthophila, Lafoea, 185
Grammaria serpens, 177
grandis, Mitrocomella, 481
Gravelya, 102

gravierae, Lineolaria, 131, 134
gravieri, Campanularia, 215

—, Clytia, 215, 216
Gymnangium, 432

— africanum, 433, 435

— allmanii, 434, 435

— arcuatum, 436, 439

— exsertum, 438, 439

— ferlusi, 440, 448

— gracilicaule, 441

— — gracilicaule, 442, 443

— — lignosum, 442, 443

|

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA

Gymnangium, hians, 435, 444
— longirostre, 445
— montagui, 435, 446

HALECIIDAE, 141
halecina, Sertularia, 150

halecinum, Halecium, 150, 152

halecioides, Lictorella, 190
Halecium, 143

— beanii, 144, 146

— delicatulum, 145, 146
— dichotomum, 147, 149
— dyssymetrum, 149, 150
— flexile, 145

— gardineri, 162

— gracile, 145

— halecinum, 150, 152
— inhacae, 151, 152

— lankesteri, 153, 155

— muricatum, 153, 155
— parvulum, 145

— sessile, 149, 154

— tenellum, 155, 156
Halerella, 118

— siphonis, 118
Halicornaria, 432

— africana, 433

— allmanii, 434

— allmanii var., 446

— arcuata, 436

— cornuta, 436

— exserta, 438

— ferlusi, 440

— gracilicaulis, 441, 443
— hians, 444

— longirostris, 445

— montagui, 446

— plumosa, 434

— segmentata, 447
Halitholus intermedius, 481
Halocharis, 68
Halocordyle, 41

— cooperi, 41

— disticha, 39, 41

— pennaria, 41
HALOCORDYLIDAE, 40
Haloikema lankesteri, 153
HALOPTERINAE, 329
Halopteris, 349

— constricta, 355

— gemellipara, 350, 351
— glutinosa, 352, 353

— polymorpha, 350, 354
— pseudoconstricta, 355, 358
— rostrata, 357, 358

— tuba, 359, 361

— valdiviae, 340
halterata, Dipurena, 481
hartlaubi, Antennularia, 384

Hebella, 178

— calcarata, 182

— corrugata, 188

— dispolians, 179, 180

— furax, 181, 183

— parvula, 179, 182

— scandens, 182, 183

— urceolata, 182

Hebellopsis, 178

— parvula, 182

— scandens, 474
hemisphaerica, Clytia, 217, 219
—, Medusa, 217
hemisphaericum, Phialidium, 217
heterodonta, Aglaophenia, 413
—, Sertularia, 306
Heteroplon, 349

— jaederholmi, 359

— pluma, 352

— valdiviae, 340

Heterotiara anonyma, 481

— minor, 481

heurteli, Diphasia, 258, 259
—, Gattya, 344, 345

—, Paragattya, 344

—, Plumularia, 344
hexanemalis, Eirene, 482
hians, Gymnangium, 435, 444
—, Halicornaria, 444

—, Plumularia, 444

—, Synthecium, 237, 238
Hincksella, 231

— corrugata, 231, 233

— cylindrica, 232

— — pusilla, 232, 233

— echinocarpa, 233, 234
hincksii, Campanularia, 205, 208
holubi, Aglaophenia, 415
humilis, Gattya, 345, 346
hummelincki, Clytia, 218, 219
—, Laomedea, 218
Hybocodon, 32

— unicus, 32, 33

Hydractinia, 108

— altispina, Frontispiece, 108, 110
— canalifera, 109, 110

— carnea, 113

— diogenes, 109, 112

— kaffraria, 111, 112

— marsupialia, 113, 114

— pacifica, 115

— parvispina, 113

— sp., 106, 108
HYDRACTINIIDAE, 104, 481
Hydrallmania, 269

— falcata, 269

Hydrichthys, 122

— boycei, 122, 124
Hydrocorella, 115

505

506 ANNALS OF THE SOUTH AFRICAN MUSEUM

Hydrocorella, africana, Frontispiece, 116, 117

Hydrodendron, 157

— caciniformis, 158, 159
— cornucopia, 160, 161

— gardineri, 162, 163

— gracilis, 163, 164

— sympodiformis, 164, 165
Hypsorophus quadratus, 140

Idia, 269

— pristis, 269

Idiella, 269

Idiellana, 269

— pristis, 267, 269

imperator, Branchiocerianthus, 28, 29
—, Monocaulus, 28

indica, Laodicea, 481

indivisa, Sertularella, 320
indivisus, Symplectoscyphus, 320
inflata, Sertularia, 311

inflatus, Cladocarpus, 422, 424
—, Desmoscyphus, 311
infundibulum, Zygophylax, 197, 199
inhacae, Halecium, 151, 152
inkermanica, Moerisia, 466

—, Ostroumovia, 466, 468, 482
integra, Campanularia, 208, 210
intermedia, Paragattya, 346
intermedius, Halitholus, 481
interrupta, Thuiaria, 263
irregularis, Antennularia, 381

—, Kirchenpaueria, 370, 371

—, Plumularia, 370

jaederholmi, Heteroplon, 359
—, Plumularia, 478
johnstoni, Clytia, 2171

—, Nemertesia, 384

—, Symplectoscyphus, 320

kaffraria, Hydractinia, 111, 112
Kirchenpaueria, 370

—, adhaerens, 376

— irregularis, 370, 371

— mirabilis, 377

— pinnata, 372, 374

— triangulata, 374, 375
KIRCHENPAUERIINAE, 370
KOllikerina multicirrata, 481

labyrinthica, Ceratella, 63

—, Solanderia, 63

laevimarginata, Abietinaria, 246, 248
—, Sertularia, 246

Lafoea, 184

— antarctica, 177

— benthophila, 185, 186

— dispolians, 180

— dumosa, 185

— fruticosa, 186, 187

— gracillima, 187

— gracillima v. benthophila, 185
— magna, 188

— parvula, 182

— scandens, 182

— serrata, 178

LAFOEIDAE, 166

lagenifera, Plumularia, 392, 394
laminacarpa, Campanularia, 205, 211
lankesteri, Halecium, 153, 155
—, Haloikema, 153

Laodicea indica, 481

— undulata, 481
LAODICEIDAE, 129, 481
Laomedea angulata, 223

— bicuspidata, 226

— calceolifera,'475

— dichotoma, 227

— geniculata, 229

— gracilis, 217

— hummelincki, 218

— loveni, 224

— obliqua, 396

— pelagica, 217

— simplex, 270

— striata, 474

Lar, 470

larynx, Tubularia, 35, 36
latecarinata, Aglaophenia, 409, 410
latitheca, Clytia, 216, 220
leiocarpa, Sertularella, 292, 293
—, Sertularia, 292

leloupi, Cladocarpus, 423, 424
Leuckartiara, 123

— annexa, 481

— gardineri, 481

— octona, 123, 124, 481

— vestita, 95

Levinsenia, 313

levuca, Eutima, 482

Lictorella, 188

— antipathes, 190

— cyathifera, 190

— geniculata, 195

— halecioides, 190

lignosa, Aglaophenia, 425
lignosus, Cladocarpus, 425, 427
ligulata, Aglaophenia, 447

—, Sertularia, 307, 310
limbata, Sertularella, 319
linealis, Sertularia, 246, 309
lineata, Sertularella, 289
Lineolaria, 133

Lineolaria gravierae, 131, 134
— sp. 134

loculosa, Sertularia, 312

longa, Sertularella, 301

—, Sertularia, 309, 310

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 507

longirostre, Gymnangium, 445
longirostris, Aglaophenia, 445
—, Halicornaria, 445
Lovenella, 134

— chiquitita, 135, 136
LOVENELLIDAE, 129, 482
loveni, Gonothyraea, 224, 225
—, Laomedea, 224

Lytocarpa, 453

Lytocarpia, 446

Lytocarpus, 446

— filamentosus, 447, 448

— gracilicaulis, 441

— patulus, 447

— philippinus, 449, 452

— phoeniceus, 448, 451

— spectabilis, 451

macgillivrayi, Aglaophenia, 408
macloviana, Bougainvillia, 96, 98, 481
maclovianus, Perigonimus, 96
macrodactyla, Aequorea, 482
macrogona, Sertularella, 316
macrogonus, Symplectoscyphus, 316, 318
Macrorhynchia, 446

— philippina, 449

magna, Lafoea, 188

maplestonei, Amphisbetia, 248, 249
—, Sertularia, 249

—, Thuiaria, 249

marginata, Dynamena, 311

—, Sertularia, 308, 311
marsupialia, Hydractinia, 113, 114
mediterranea, Sertularella, 294

— asymmetrica, Sertularella, 295, 296
— mediterranea, Sertularella, 294, 296
Medusa hemisphaerica, 217
megista, Sertularella, 295, 298
meinertiae, Bougainvillia, 97, 98
menoni, Eirene, 482

Merona, 72

— cornucopiae, 74, 74

millardae, Cladocarpus, 424, 426
minervae, Mitrocoma, 481

minima, Amphisbetia, 248, 250

—, Ceratella, 59

—, Sertularia, 250

—, Solanderia, 59, 60

minor, Heterotiara, 481

—, Monocoryne, 44, 45

mira, Agastra, 208

mirabilis, Diplocheilus, 377

—, Kirchenpaueria, 377

—, Pycnotheca, 377, 378
Mitrocoma minervae, 481
Mitrocomella grandis, 481
MITROCOMIDAE, 129, 481
Modeeria, 137

— rotunda, 137, 139

Moerisia inkermanica, 466
MOERISIIDAE, 464, 482

mollis, Campanularia, 212
Monocaulus imperator, 28
Monocoryne, 43

— minor, 44, 45

Monostaechas, 362

— dichotoma, 365

— faurei, 362, 364

— fisheri v. simplex, 365

— natalensis, 363, 364, 367

— quadridens, 365, 367
Monotheca posidoniae, 396

— yinulosa, 401

montagui, Gymnangium, 435, 446
—, Halicornaria, 446

morgansi, Campanularia, 212, 216
mortenseni, Corhiza, 335, 336
mossambicae, Plumularia, 391, 393
motzkossowskae, Eudendrium, 84, 86
multiapertus, Cladocarpus, 418
multicirrata, KOllikerina, 481
multiseptata, Cladocarpella, 418
multitentaculata, Clavactinia, 105, 106
—, Clavatella, 54

—, Sphaerocoryne, 54
multithecata, Gattya, 348, 350

—, Plumularia, 348

muricata, Sertularia, 153
muricatum, Halecium, 153, 155
murrayi, Bythotiara, 481

muscus, Bougainvillia, 97
mutabilis, Campanularia, 188

—, Proboscidactyla, 482

—, Scandia, 183, 188

Myriothela, 45

— capensis, 44, 45

— tentaculata, 44, 46, 47
MYRIOTHELIDAE, 42

nassa, Cytaeis, 119, 120

—, Podocoryne, 119
natalensis, Antennella, 332
—, Monostaechas, 363, 364, 367
—, Sertularella;-296, 297
navis, Clavopsella, 100, 102
—, Rhizorhagium, 100
Nematocarpus, 416
Nematophorus plumosus,. 480
Nemertesia, 381

— antennina, 381, 382

— ciliata, 382, 383

— cymodocea, 384, 387

— decussata, 384

— johnstoni, 384

— ramosa, 386, 387
Neoturris papua, 481

— pileata, 481

Nigellastrum, 256

508 ANNALS OF THE SOUTH AFRICAN MUSEUM

Nigellastrum digitale, 257
nigra, Diphasia, 261

—, Sertularia, 261

nova, Oswaldella, 376, 378
——, Plumularia, 376
nudum, Rhizogeton, 73, 75
nutricula, Oceania, 76

—, Turritopsis, 73, 76

Obelia, 226

— bicuspidata, 226, 228

— dichotoma, 227, 228

— dubia, 227

— geniculata, 228, 229

— sp., 482

— striata, 215

obliqua, Dynamena, 266, 267
—, Laomedea, 396

—, Plumularia, 396, 397
Oceania armata, 481

— nutricula, 76

octong, Geryonia, 123

—, Leuckartiara, 123, 124, 481
Octotiara russelli, 481
Odontotheca, 247

— bidens, 475

— operculata, 475

oligista, Calicella, 131, 132
Opercularella, 138

— sp., 138, 139

operculata, Amphisbetia, 251, 252
—, Dynamena, 475

—, Odontotheca, 475

—, Sertularia, 251

Ophiodes, 157

— caciniformis, 158

— gracilis, 164

Ophiodissa, 157

— caciniformis, 158
Orthopyxis, 203

— crenata, 204

— delicata, 206
Ostroumovia, 466

— inkermanica, 466, 468, 482
Oswaldaria, 168

Oswaldella, 376

— nova, 376, 378

pacifica, Hydractinia, 115
palkensis, Eirene, 482
Pandea conica, 481
PANDEIDAE, 121, 481
pannosa, Corhiza, 337, 339
papua, Neoturris, 481
paradoxa, Clytia, 219, 220
paradoxus, Eucalix, 220
Paragattya, 341

— heurteli, 344

— intermedia, 346

Paragotoea bathybia, 481
Parascyphus, 270

— simplex, 270, 272
parasitica, Aglaophenia, 461
—, Sertularia, 72
parasiticum, Corydendrium, 72, 73
Parawrightia, 103

— robusta, 103

paries, Cladocarpus, 482, 484
parvispina, Hydractinia, 113
parvula, Aglaophenia, 413
—, Hebella, 179, 182

—, Hebellopsis, 182

—, Lafoea, 182

parvulum, Halecium, 145
parvum, Eudendrium, 82
Parypha, 35

— crocea, 38

Pasya, 261

Pasythea, 261

— quadridentata, 266
patula, Aglaophenia, 447
patulus, Lytocarpus, 447
paulensis, Campanularia, 221
—, Clytia, 221, 222

—, Symplectoscyphus, 317, 318
pecten, Campanularia, 212, 214
pectinata, Acryptolaria, 174
—, Cryptolaria, 174, 176
—, Perisiphonia, 174

—, Thuiaria, 273

pelagica, Laomedea, 217
Pennaria, 41

— australis, 41

— disticha, 41

pennaria, Halocordyle, 41
PENNARIDAE, 40
pennatula, Aglaophenia, 446
—, Plumularia, 446

—, Sertularia, 446
pennycuikae, Plumularia, 398, 403
pensilis, Aequorea, 482
Perigonimus maclovianus, 96
— vestitus f. radicans, 123
Perisiphonia, 174

— pectinata, 174

persocialis, Thuiaria, 273
personalis, Thuiaria, 476
Phialella, 140

— falklandica, 482

— turrita, 139, 140
PHIALELLIDAE, 129, 482
Phialidum, 213

— hemisphaericum, 217

— phosphoricum, 482

— simplex, 482

Phialopsis diegensis, 482
PHIALUCIIDAE, 129, 482
Phialucium carolinae, 482

—— tts

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA 509

Dhilippina, Aglaophenia, 449

—, Macrorhynchia, 449
philippinus, Lytocarpus, 449, 452
phoenicea, Aglaophenia, 451

—, Plumularia, 451

phoeniceus, Lytocarpus, 448, 451
phosphoricum, Phialidium, 482
Phylactotheca, 157

pileata, Neoturris, 481

pinaster, Diphasia, 258

pinnata, Diphasia, 261

—, Kirchenpaueria, 372, 374

—, Plumularia, 372

—, Sertularia, 261, 372
platygaster, Bougainvillia, 481
pluma, Aglaophenia, 411

—, Heteroplon, 352

—, Sertularia, 411

— dichotoma, Aglaophenia, 413, 414

— parvula, Aglaophenia, 413, 414
— pluma, Aglaophenia, 412, 414
plumifera, Aglaophenia, 460
plumosa, Aglaophenia, 447
—, Halicornaria, 434
plumosus, Nematophorus, 480
Plumularia, 388

— africana, 359

— alternata, 352

— antonbruuni, 389, 391
— bidentata, 380

— brevirostris, 454

— conspecta, 343

— cristata, 416

— crosslandi, 380

— delicatula, 455

— echinulata, 372

— falcata, 269

— filamentosa, 447

— filicaulis, 390, 391

— flexuosa, 398

— formosa, 461

— gaymardi, 372

— glutinosa, 352

— heurteli, 344

— hians, 444

— irregularis, 370

— jaederholmi, 478

— lagenifera, 392, 394

— mossambicae, 391, 393
— multithecata, 348

— nova, 376

— obliqua, 396, 397

— pennatula, 446

— pennycuikae, 398, 403
— phoenicea, 451

— pinnata, 372

— polymorpha, 354

— pulchella, 397, 398

— quadridens, 365

— quadridentata, 344

— setacea, 394, 399

— — v. gaimardi, 392

— sp., 398, 479

— spinulosa, 397, 401

— strictocarpa, 402, 403

— tenuis, 404

— triangulata, 375

— tuba, 359

— tubulifera, 416

— unilateralis, 372

— vitiana, 454

— warreni, 403, 404

— wasini, 405, 406
PLUMULARIIDAE, 325
PLUMULARIINAE, 379
plumularioides, Cladocarpus, 418
pluridentata, Dynamena, 253
Podocoryne carnea, 481

— carnea, 113

— nassa, 119

polymorpha, Halopteris, 350, 354
—, Plumularia, 354

polynema, Cirrholovenia, 482
polyzonias, Sertularella, 299

—, Sertularella, 476

—, Sertularia, 299, 476, 477

— falsa, Sertularella, 300, 302

— gigantea, Sertularella, 301, 302
— polyzonias, Sertularella, 300, 302
— xantha, Sertularella, 301, 302
posidoniae, Monotheca, 396
pristis, Idia, 269

—, Idiellana, 267, 269
Proboscidactyla, 470

— mutabilis, 482
PROBOSCIDACTYLIDAE, 467, 482
procumbens, Ceratella, 59

—, Solanderia, 59, 62
pseudoconstricta, Halopteris, 355, 358
pulchella, Plumularia, 397, 398
pulchra, Sertularella, 296, 303
pumila, Dynamena, 268

—, Sertularia, 268

pusilla, Aglaophenia, 416

—, Coryne, 50, 51

—, Cyclonia, 232

Pycnotheca, 377

— mirabilis, 377, 378

quadranularia, Clavopsella, 100
quadratus, Hypsorophus, 140
quadriaurita f. africana, Antenella, 331
quadridens, Monostaechas, 365, 367
—, Plumularia, 365

quadridentata, Dynamena, 265, 266
—, Pasythea, 266

—, Plumularia, 344

—, Sertularia, 266

510 ANNALS OF THE SOUTH AFRICAN MUSEUM

ramosa, Antennularia, 386

—, Bougainvillia, 97, 98

—, Nemertesia, 386, 387

—, Tubularia, 85

ramosum, Eudendrium, 85, 92
—, Eudendrium, 97

—, Synthecium, 236
raridentata, Clytia, 474

—, Thaumantias, 474
rectangularis, Acryptolaria, 171, 173
—, Cryptolaria, 171

regularis, Thyroscyphus, 321
Reticularia, 175

— antarctica, 177

— serpens, 473

— serrata, 178

Rhizogeton, 75

— nudum, 73, 75
Rhizorhagium, 103

— navis, 100

— robustum, 103, 105

rigida, Bimeria, 93, 94
ritchiei, Eudendrium, 87, 89
roberti, Campanularia, 213, 214
robusta, Parawrightia, 103
robustum, Rhizorhagium, 103, 105
rosacea, Sertularia, 260
rostrata, Halopteris, 357, 358
rotunda, Dianaea, 137

— Modeeria, 137, 139

—, Tiaranna, 137

rubra, Agastra, 208

rubrum, Chromatonema, 481
rugosa, Solanderia, 63
russelli, Octotiara, 481
ryniensis, Asyncoryne, 53, 63

Salacia, 217

— articulata, 272, 273
— desmoides, 274, 275
— disjuncta, 274, 275
Sarsia, 52

—eximia, 52, 53

— gracilis, 481

— sp. 481

scandens, Hebella, 182, 183
—, Hebellopsis, 474

—, Lafoea, 182

Scandia, 187

— mutabilis, 183, 188
Scapus, 168
Schizotricha, 368

— frutescens, 368

— simplex, 369, 371
scotiae, Antennopsis, 338
—, Corhiza, 338, 339
secunda, Sertularella, 319
secundaria, Antenella, 332, 333
—, Sertularia, 332

secundus, Symplectoscypnus, 318, 319
segmentata, Halicornaria, 447
serpens, Campanularia, 177
—, Filellum, 177

—, Grammaria, 177

—, Reticularia, 473

serrata, Antennella, 331

—, Clytia, 215

—, Lafoea, 178

—, Reticularia, 178
serratum, Filellum, 178, 179
Sertularella, 276

— africana, 278, 280

— agulhensis, 279, 280

— annulaventricosa, 279, 280
— arborea, 476

— arboriformis, 316

— arbuscula, 280, 281

— campanulata, 253

— capensis, 282, 284

— capensis delicata, 279

— congregata, 283, 284

— crassipes, 281

— cuneata, 476

— cylindrica, 232

— diaphana, 285, 286

— dubia, 285

— dubia magna, 287, 288
— ellisi f. mediterranea, 294
— falsa, 476

— filiformis, 319

— flabellum, 284, 289

— fusiformis, 286, 289

— fusiformis, 278

— gayi, 305

— gilchristi, 288, 290

— goliathus, 291, 293

— indivisa, 320

— leiocarpa, 292, 293

— limbata, 319

— lineata, 289

— longa, 301

— macrogona, 316

— mediterranea, 294

— — asymmetrica, 295, 296
— — mediterranea, 294, 296
— megista, 295, 298

— natalensis, 296, 297

— polyzonias, 299

— polyzonias, 476

— — falsa, 300, 302

— — gigantea, 301, 302

— — polyzonias, 300, 302
— — xantha, 301, 302

— pulchra, 296, 303

— secunda, 319

— sp. 476

— striata, 298, 304

— tenella, 279

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA ed

Sertularella tumida, 476

— undulata, 279
— unilateralis, 320
— xantha, 301

sertularellae, Tubularia, 35

Sertularia, 305

— abietina, 247

— acanthostoma, 253
— acuta, 312

— antennina, 381
— antipathes, 190
— aperta, 251

— arbuscula, 281
— argentea, 313

— articulata, 273
— bidens, 249

— crinoidea, 475

— desmoides, 274
— dichotoma, 227
— digitalis, 257

— distans, 306, 308
— dumosa, 185

— echinocarpa, 234
— elongata, 313

— falcata, 269

— filiformis, 319

— frutescens, 368
— fusiformis, 289
— gaudichaudi, 320
— gayi, 305

— geniculata, 229
— gracilis, 306, 319
— halecina, 150

— heterodonta, 306
— inflata, 311

— laevimarginata, 246
— leiocarpa, 292

— ligulata, 307, 310
— linealis, 246, 309
— loculosa, 312

— longa, 309, 310
— maplestonei, 249
— marginata, 308, 311
— minima, 250

— muricata, 153

— nigra, 261

— operculata, 251
— parasitica, 72

— pinnata, 261, 372
— pluma, 411

— polyzonias, 299, 476, 477

— pumila, 268

— quadridentata, 266
— rosacea, 260

— secundaria, 332

— setacea, 399

— turbinata, 310, 312
— unilateralis, 320

SERTULARIIDAE, 239

sessile, Halecium, 149, 154
setacea, Plumularia, 394, 399
—, Sertularia, 399

— v. gaimardi, Plumularia, 392
sibogae, Cladocarpus, 418
—, Zygophylax, 198, 199
simplex, Eudendrium, 84
—, Laomedea, 270

—, Parascyphus, 270, 272
—, Phialidium, 482

—, Schizotricha, 369, 371
—, Thyroscyphus, 270
sinuosus, Cladocarpus, 427, 428
siphonis, Halerella, 118

—, Stylactella, 118

—, Stylactis, 118
Solanderia, 58

— atrorubens, 61

— labyrinthica, 63

— minima, 59, 60

— procumbens, 59, 62

— rugosa, 63
SOLANDERIIDAE, 58
Soleniopsis, 72

— dendriformis, 72
solitaria, Tubularia, 40
solitarius, Zyzzyzus, 39, 40
spectabilis, Lytocarpus, 451
Sphaerocoryne, 54

— bedoti, 53, 54

— multitentaculata, 54
spinosa, Ceratella, 59
spinulosa, Monotheca, 401
—, Plumularia, 397, 401
Spongia fruticosa, 323
Spongiocladium, 58
Stauridiosarsia, 52
Staurocladia, 56

— vallentini, 57, 67, 481
Staurocoryne, 51
Steenstrupia, 30
Stegopoma fastigiata, 137
Stereotheca, 313

— acanthostoma, 475

— elongata, 313, 315
striata, Loamedea, 474

—, Obelia, 215

—, Sertularella, 298, 304
strictocarpa, Plumularia, 402, 403
Stylactella siphonis, 118
Stylactis, 118

— siphonis, 118
subventricosum, Synthecium, 236
Symplectanea, 43
Symplectoscyphus, 314

— arboriformis, 315, 316
— filiformis, 319

— indivisus, 320

— johnstoni, 320

Sy ANNALS OF THE SOUTH AFRICAN MUSEUM

Symplectoscyphus macrogonus, 316, 318
— paulensis, 317, 318

— secundus, 318, 319

— unilateralis, 320

sympodiformis, Hydrodendron, 164, 165
Syncoryna, 51

Syncoryne eximia, 52
SYNTHECIIDAE, 230

Synthecium, 235

— cylindricum, 232

— dentigerum, 235, 237

— elegans, 236, 237

— hians, 237, 238

— ramosum, 236

— subventricosum, 236

tenella, Sertularella, 279
tenellum, Halecium, 155, 156
tentaculata, Myriothela, 44, 46, 47
tenuis, Cladocarpus, 429, 431
—, Plumularia, 404
tetraglochina, Diphasia, 259, 260
tetrastyla, Cytaeis, 481
Thaumantias raridentata, 474
Thecocarpus, 453 ;

— brevirostris, 454, 456

— delicatulus, 455, 456

— flexuosus, 457

— — flexuosus, 458, 459

— — plumiferus, 460, 462
— — solidus, 459, 460

— — umbellatus, 461, 462
— formosus, 452, 461

— giardi, 458, 460
Thecocaulus, 349

— tuba, 478

— valdiviae, 340
Thecocladium, 276

— flabellum, 289

Thoa beanii, 144

Thuiaria, 430

— articulata, 273

— diaphana, 285

— doliolum, 320

— ellisii, 273

— interrupta, 263

— maplestonei, 249

— pectinata, 273

— persocialis, 273

— personalis, 476

— tubuliformis, 263
Thyroscyphus, 321

— aequalis, 321, 322

— fruticosus, 323, 324

— regularis, 321

— simplex, 270

Tiaranna, 137

— rotunda, 137

tincta, Campanularia, 204

triangulata, Kirchenpaueria, 374, 375
—, Plumularia, 375
Tridentata acuta, 312

tuba, Halopteris, 359, 361
—, Plumularia, 359

—, Thecocaulus, 478
Tubiclava cornucopiae, 74
Tubularia, 35

— betheris, 32

— crocea, 38

— larynx, 35, 36

— ramosa, 85

— sertularellae, 35

— solitaria, 40

— warreni, Frontispiece, 35, 36
TUBULARIIDAE, 30, 481
tubulifera, Aglaophenia, 416
—, Plumularia, 416
tubuliformis, Dynamena, 475
—, Thuiaria, 263

tumida, Sertularella, 476
turbinata, Dynamena, 312
—, Sertularia, 310, 312
turrita, Campanulina, 140
—, Phialella, 139, 140
Turritopsis, 76

— dorhni, 76

— nutricula, 73, 76

ulvae, Clytia, 221

undulata, Laodicea, 481
—, Sertularella, 279
unicornus, Cladocarpus, 429, 431
unicus, Amphicodon, 32

—, Hybocodon, 32, 33
unilateralis, Plumularia, 372
—, Sertularella, 320

—, Sertularia, 320

—, Symplectoscyphus, 320
urceolata, Hebella, 182

vagans, Zygocanna, 482
valdiviae, Cladocarpus, 431, 432
—, Corhiza, 340, 342

—, Halopteris, 340

—, Heteroplon, 340

—, Thecocaulus, 340

vallentini, Cnidonema, 57

—, Eleutheria, 57

—, Staurocladia, 57, 67, 481

van Benedeni, Bougainvillia, 97
vestita, Bimeria, 94, 95

—, Leuckartiara, 95

vestitus f. radicans, Perigonimus, 123
vitiana, Aglaophenia, 454

—, Plumularia, 454

warreni, Clytia, 221, 222
—, Plumularia, 403, 404
—, Tubularia, Frontispiece, 35, 36

MONOGRAPH ON THE HYDROIDA OF SOUTHERN AFRICA

wasini, Plumularia, 405, 406 — africana, 189, 191
Willia, 470 — antipathes, 190, 191
Wrightia, 103 — armata, 192, 194
— biarmata, 193, 194
. — cornucopia, 160

xantha, Sertularella, 301 — enigmatica, 164

— geminocarpa, 194, 195

Zanclea, 68 — geniculata, 195, 196

— sp. 67, 68 ’ — infundibulum, 197, 199
ZANCLEIDAE, 66 — sibogae, 198, 199
Zygocanna vagans, 482 Zyzzyzus, 38

Zygophylax, 188 — solitarius, 39, 40

513

UW)

6. SYSTEMATIC papers must conform with the International code of zoological nomenclature
(particularly Articles 22 and 51).

Names of new taxa, combinations, synonyms, etc., when used for the first time, must be
followed by the appropriate Latin (not English) abbreviation, e.g. gen. n., sp. n., comb. n.,
syn. n., etc.

An author’s name when cited must follow the name of the taxon without intervening
punctuation and not be abbreviated; if the year is added, a comma must separate author’s
name and year. The author’s name (and date, if cited) must be placed in parentheses if a
species or subspecies is transferred from its original genus. The name of a subsequent user of
a scientific name must be separated from the scientific name by a colon.

Synonymy ‘arrangement should be according to chronology of names, i.e. all published
scientific names by which the species previously has been designated are listed in chronological
order, with all references to that name following in chronological order, e.g.:

Family Nuculanidae
Nuculana (Lembulus) bicuspidata (Gould, 1845)

Figs 14-15A
Nucula (Leda) bicuspidata Gould, 1845: 37.
Leda plicifera A. Adams, 1856: 50.
Laeda bicuspidata Hanley, 1859: 118, pl. 228 (fig. 73). Sowerby, 1871: pl. 2 (figs 8a—b).
Nucula largillierti Philippi, 1861: 87
Leda bicuspidata: Nicklés, 1950: 163, fig. 301; 1955: 110. Barnard, 1964: 234, figs 8-9,

Note punctuation in the above example:
comma separates author’s name and year
semicolon separates more than one reference by the same author
full stop separates references by different authors
figures of plates are enclosed in parentheses to distinguish them from text-figures
dash, not comma, separates consecutive numbers

Synonymy arrangement according to chronology of bibliographic references, whereby
the year is placed in front of each entry, and the synonym repeated in full for each entry, is
not acceptable.

In describing new species, one specimen must be designated as the holotype; other speci-
mens mentioned in the original description are to be designated paratypes; additional material
not regarded as paratypes should be listed separately. The complete data (registration number,
depository, description of specimen, locality, collector, date) of the holotype and paratypes
must be recorded, e.g.:

Holotype

SAM-A13535 in the South African Museum, Cape Town. Adult female from mid-tide region, King’s Beach,
Port Elizabeth (33.51S, 25.39E), collected by A. Smith, 15 January 1973.

Note standard form of writing South African Museum registration numbers and of date.

7. SPECIAL HOUSE RULES

Capital initial letters
(a) The Figures, Maps and Tables of the paper when referred to in the text
e.g. ‘... the Figure depicting C. namacolus...’
*... in C. namacolus (Fig. 10)...’
(b) The prefixes of prefixed surnames in all languages, when used in the text, if not preceded
by initials or full names
e.g. Du Toit but A. L. du Toit
Von Huene but F. von Huene
(c) Scientific names, but not their vernacular derivatives
e.g. Therocephalia, but therocephalian
Punctuation should be loose, omitting all not strictly necessary
Reference to the author should be expressed in the third person
Roman numerals should be converted to arabic, except when forming part of the title of a
book or article, such as
‘Revision of the Crustacea. Part VIII. The Amphipoda.’
Specific name must not stand alone, but be preceded by the generic name or its abbreviation
to initial capital letter, provided the same generic name is used consecutively.

N. A. H. MILLARD

MONOGRAPH ON THE HYDROIDA
OF SOUTHERN AFRICA

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